2011 Key Products Guide - Fortune Scientific Co., Ltd.
2011 Key Products Guide - Fortune Scientific Co., Ltd.
2011 Key Products Guide - Fortune Scientific Co., Ltd.
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<strong>2011</strong> <strong>Key</strong> <strong>Products</strong> <strong>Guide</strong><br />
HPLC/UHPLC<br />
GC<br />
Sample Preparation<br />
Preparative HPLC<br />
Chiral Chromatography<br />
GPC/SEC<br />
GFC/SEC<br />
Bioseparations
Thank You<br />
To Our Customers Heroes,<br />
You are such a huge part of our journey, so it’s only appropriate that<br />
we begin by taking a moment to say, “THANK YOU”.<br />
Why? Because you inspire us.<br />
We applaud you for making the world better each day. Thank you for helping<br />
people, discovering cures, inventing new technologies, dedicating your lives to<br />
research, advancing science through innovation, thinking beyond limitations, and<br />
for protecting our food, our health, our planet, and so much more.<br />
We admire you because you spend every day doing your best to make a better<br />
life for all of us, our families, and our world. For this, we want to support you in<br />
every way we can.<br />
Here is to a year of imagining (and achieving) the impossible, together.<br />
The Phenomenex Family<br />
www.phenomenex.com<br />
Phenomenex products are available worldwide.<br />
For the distributor in your country, contact Phenomenex USA,<br />
International Department at international@phenomenex.com<br />
BR83481110_I_2
<strong>Co</strong>me visit the brand NEW www.phenomenex.com<br />
Thousands of resources available for you:<br />
• Chromatography Tools<br />
• Applications<br />
• Technical Support<br />
• Technical Notes<br />
• Sample Request<br />
• Detailed Product Information<br />
Request Your <strong>Co</strong>py of the<br />
<strong>2011</strong> Phenomenex Chromatography Catalog TODAY!<br />
www.phenomenex.com/catalog<br />
• Includes information on over 200 brands for HPLC, GC and sample preparation<br />
• <strong>Co</strong>mprehensive tips for method development and troubleshooting<br />
• <strong>Co</strong>ntains hundreds of HPLC, GC, and sample preparation applications<br />
Terms and <strong>Co</strong>nditions<br />
Offers and discounts must be specified at time of order and cannot be combined with any other discount or promotional items. The information, offers, and<br />
descriptions in this brochure are subject to change without notice. Subject to Phenomenex Standard Terms and <strong>Co</strong>nditions, which may be viewed at<br />
www.phenomenex.com/termsandconditions<br />
Trademarks<br />
Gemini, Jupiter, Luna, Lux, and Strata are registered trademarks of Phenomenex, Inc. Arylene Matrix Technology, Axia, BioSep, Glass Infusion, Impact, Inferno,<br />
Kinetex, KrudKatcher, MercuryMS, MidBore, Phenex, Phenogel, pHLC, Rezex, SecurityGuard, Strata-X, Synergi, TWIN-NX, WAXPLUS and Zebron are trademarks<br />
of Phenomenex, Inc. Aminex, Bio-Rad, and Bio-Sil are registered trademarks of Bio-Rad Laboratories. CHIRALCEL, CHIRALPAK, AD, OD-H, and OJ-H are<br />
registered trademarks of DAICEL Chemical Industries, <strong>Ltd</strong>. Cyrolite is a registered trademark of CY/RO Industries. HYPERSIL is a registered trademark of Thermo<br />
Hypersil-<strong>Key</strong>stone, Inc. Interaction is a registered trademark of Transgenomic/Cetac. J&W is a registered trademark of J&W. Nucleosil is a registered trademark of<br />
Macherey-Nagel. PLgel is a trademark of Polymer Laboratories, <strong>Ltd</strong>. ACQUITY, UPLC, Styragel, XTerra, and Waters are registered trademarks of Waters <strong>Co</strong>rporation.<br />
BioSuite, OBD, Sugar-Pak, µStyragel, and Ultrastyragel are trademarks of Waters <strong>Co</strong>rporation. PEEK is a registered trademark of ICI Americas, Inc. Teflon is a<br />
registered trademark of E.I. du Pont de Nemours and <strong>Co</strong>. SRT is a registered trademark of Sepax. SUPELCOGEL is a trademark of Supelco. TSKgel and TSK-GEL<br />
are registered trademarks of Tosoh <strong>Co</strong>rporation. VYDAC is a registered trademark of Alltech Associates, Inc. Agilent Technologies and ZORBAX are registered<br />
trademarks of Agilent Technologies. Rtx, MXT, Rxi, Stx, XTI and StabilWax are registered trademarks of Restek. All other trademarks belong to their respective<br />
owners. Phenomenex, Inc. is in no way affiliated with the above companies.<br />
Disclaimer<br />
Strata-X and AXIA are patented by Phenomenex, Inc.<br />
© <strong>2011</strong> Phenomenex, Inc. All rights reserved.<br />
www.phenomenex.com<br />
international@phenomenex.com
Phenomenex ®<br />
<strong>Co</strong>ntact Phenomenex for all of your chromatography consumable needs. In addition to the products<br />
featured in this guide, Phenomenex manufactures or supplies many other HPLC, GC & SPE columns and<br />
accessories.<br />
Accessories<br />
• General Laboratory <strong>Co</strong>nsumables<br />
– Autosampler Vials – Filtration System<br />
– Centrifugal Filters – Syringe Filters<br />
– Filter Membranes – Syringes<br />
• GC<br />
– <strong>Co</strong>ol-Lock Nut – Liners<br />
– Ferrules – Septa<br />
– Inlet Base Seals – Traps / Purifiers<br />
• HPLC<br />
– <strong>Co</strong>lumn Heaters – Pipettes<br />
– <strong>Co</strong>lumn Selectors – Rheodyne ® Sample Injectors<br />
– Fluid Processors – Solvent Degasser<br />
– Mobile Phase Accessories – Solvent Recycler<br />
Bulk Media<br />
GC Capillary <strong>Co</strong>lumns<br />
• Quadrex<br />
• SGE<br />
• Zebron <br />
HPLC <strong>Co</strong>lumns<br />
Aqua <br />
Gemini ®<br />
Asahipak ®<br />
Axia Packed <strong>Co</strong>lumns<br />
Beckman <strong>Co</strong>ulter Ultrasphere ®<br />
BioSep <br />
Bondclone <br />
Capcell Pak ®<br />
Ceramospher ® and Chiral CD-Ph<br />
Chiral Method Development Kits<br />
Chirex ®<br />
Chromolith ®<br />
Clarity ®<br />
<strong>Co</strong>lumbus <br />
<strong>Co</strong>smosil <br />
Curosil / Taxol ®<br />
Develosil ®<br />
EnviroSep <br />
EZ:faast <br />
Sample Preparation / SPE<br />
• Accessories<br />
• Strata ® Silica SPE Sorbents<br />
• Strata -X Polymeric SPE Sorbents<br />
• 96-Well Plates<br />
• Tubes<br />
• Vacuum Manifolds<br />
Gemini ® -NX<br />
Hamilton ®<br />
Hypercarb <br />
HyperClone <br />
HYPERSIL ®<br />
HYPERSIL ® BDS<br />
IB-Sil <br />
Inertsil ®<br />
Jupiter ®<br />
Kinetex <br />
Kingsorb <br />
Kromasil ® Chiral<br />
LiChrosorb ®<br />
LiChrospher ®<br />
Luna ®<br />
Lux <br />
Maxsil <br />
Merck KGaA<br />
Shodex ®<br />
Nucleosil ®<br />
Shodex ® Chiral<br />
Nucleosil ® Chiral<br />
SphereClone <br />
Onyx <br />
Spherex <br />
Partisil ®<br />
Spherisorb ®<br />
PartiSphere ®<br />
STAR-ION A300<br />
Phenogel <br />
Sumichiral OA Chiral<br />
PhenoSphere <br />
Synergi <br />
PhenoSphere -NEXT Ultracarb <br />
Polymer Labs<br />
Ultrasphere ®<br />
PolymerX <br />
Ultremex <br />
PolySep -GFC-P<br />
Ultron ® ES Chiral<br />
PREP <strong>Co</strong>lumns<br />
VYDAC ®<br />
PrimeSphere <br />
Whatman ®<br />
Prodigy <br />
ZORBAX ®<br />
Rezex <br />
SecurityGuard <br />
Selectosil <br />
If you are not completely satisfied with<br />
any of the products featured in this<br />
brochure, return within 45 days for a<br />
FULL Refund!<br />
All trademarks are properties of their respective owners.<br />
international@phenomenex.com<br />
www.phenomenex.com
Sample Filtration<br />
SPE (Solid Phase Extraction)<br />
P.P. 2-3<br />
P.P. 4-8<br />
Phenex <br />
Syringe Filters<br />
Strata -X<br />
GC <strong>Co</strong>lumns<br />
P.P. 9-21<br />
Zebron GC <strong>Co</strong>lumns<br />
HPLC <strong>Co</strong>lumns<br />
Kinetex <br />
HPLC <strong>Co</strong>lumns<br />
P.P. 26-35<br />
HPLC<br />
Chiral Analysis<br />
Lux ®<br />
P.P. 42-44<br />
Rezex <br />
Carbohydrate<br />
Organic<br />
Acid Analyis<br />
P.P. 52-54<br />
P.P. 55-56<br />
GPC<br />
Phenogel <br />
Protein/Peptide Analysis & Purification<br />
Jupiter ® 300 RP-HPLC<br />
Jupiter Proteo RP-HPLC<br />
BioSep GFC/SEC<br />
P.P. 45-51<br />
international@phenomenex.com<br />
www.phenomenex.com
Sample Filtration<br />
Phenex Syringe Filters<br />
For sample and solvent filtration prior to<br />
chromatography<br />
• Rapid filtration of HPLC and GC samples prior to analysis<br />
• Particulate, PVC, and extractable-free filters<br />
• Less system downtime<br />
• More consistent, reproducible results<br />
• Increased column lifetime<br />
Syringe Filter Selection <strong>Guide</strong><br />
Phenex Offers:<br />
• Maximum chemical compatibility • 100 % integrity tested<br />
• Minimum extractables<br />
• Low hold-up volume<br />
• Excellent flow rate<br />
• Low protein adsorption<br />
• High total throughput<br />
• Bi-directional use<br />
• Certified quality<br />
1. Choose filter diameter based on sample volume<br />
4 mm Diameter 15 - 17 mm Diameter 25 - 28 mm Diameter<br />
≤ 2 mL Sample Volume 2 - 10 mL Sample Volume 10 - 100 mL Sample Volume<br />
2. Choose a pore size based on the nature of your sample and chromatographic method<br />
Sample Description<br />
Recommended Filter Pore Size<br />
General aqueous or mixed organic samples prior to HPLC analysis with column packed with > 3 µm particles.<br />
General clarification of GC, SFC, CE, and GPC samples. 0.45 µm<br />
Viscous samples or samples containing high levels of particulate matter.<br />
General aqueous or mixed organic samples prior to HPLC analysis with columns packed with < 3 µm particles.<br />
Removal of fine particulate matter prior to GC, SFC, CE, and GPC samples. 0.20 µm<br />
Gas samples prior to GC. Liquid samples prior to UHPLC or LC/MS. Other particulate-sensitive methods.<br />
Viscous samples such as serum, plasma or other biological matrices. Solutions with high particulate load such<br />
as some environmental or food and beverage applications.<br />
Glass Fiber Filter<br />
with 0.45 µm filter<br />
3. Choose a filter membrane according to the characteristics of your sample and filtering objective<br />
Membrane Type<br />
RC<br />
(Regenerated Cellulose)<br />
PTFE, Teflon ®<br />
(Polytetrafluoroethylene)<br />
PES<br />
(Polyethersulfone)<br />
NY<br />
(Nylon)<br />
CA<br />
(Cellulose Acetate)<br />
GF<br />
(Glass Fiber)<br />
Recommended Uses<br />
Hydrophilic Regenerated Cellulose filter membranes are compatible with a very broad range of aqueous and mixed-organic solutions,<br />
making them one of the most universal filter materials used prior to chromatography. Phenex-RC filters also exhibit fast-flow and<br />
ultra-low protein and non-specific binding characteristics. Due to the beneficial material characteristics, Phenex-RC membranes are<br />
broadly recommended as an excellent general purpose/high-performance sample filter for most applications.<br />
PTFE is an inherently hydrophobic membrane excellent for filtration of organic-based, highly acidic or basic samples and solvents.<br />
Widely used in chromatography, it is especially well suited for the clarification of non-aqueous samples. Although this membrane is<br />
hydrophobic, it can be made hydrophilic by wetting the membrane with alcohol and then flushing with deionized water.<br />
Polyethersulfone membranes exhibit very fast-flow and ultra-low protein binding characteristics and are ideally suited for use in many<br />
life science clarification applications. Phenex-PES membranes typically offer better chemical resistance than cellulose acetate and<br />
are broadly recommended for filtering critical biological samples, tissue culture media, additives and buffers.<br />
Nylon has inherent hydrophilic characteristics and works well for filtration of many aqueous and mixed-organic samples. For applications<br />
that require low protein or non-specific binding characteristics, Phenomenex recommends Phenex-RC (Regenerated Cellulose)<br />
filters.<br />
Cellulose Acetate membranes exhibit ultra-low protein binding and are broadly used in the filtration of biological samples. In<br />
combination with a glass pre-filter (Phenex-GF/CA), this membrane is excellent for filtration of tissue culture media, general biological<br />
sample filtration and clarification.<br />
Phenex-GF (Glass Fiber) filters are made of inert borosilicate glass and have a nominal 1.2 µm pore size. They are commonly used<br />
with highly viscous samples or samples that contain high concentrations of particulate matter (e.g., food analysis, biological samples,<br />
soil samples, fermentation broth samples, removal of yeasts, molds, etc.). Glass Fiber filters can be used alone or in series with other<br />
Phenex filter membranes such as the 0.45 µm pore Phenex-RC filter to reduce clogging of the membrane and optimize flow.<br />
Phenex is a trademark of Phenomenex, Inc.<br />
2 www.phenomenex.com international@phenomenex.com<br />
Phenomenex
Sample Filtration<br />
Syringe Filters (cont’d)<br />
Syringe Filter Applications and Recommended Membranes<br />
Application / Sample<br />
Recommended<br />
Filter<br />
First<br />
Alternative<br />
Second<br />
Alternative<br />
HPLC and GC Sample Prep RC PTFE PES<br />
Aggressive or Pure Organic Solvents PTFE RC NY<br />
Protein Analysis / Biological Samples PES RC GF/CA<br />
High Particulate Loads GF/NY GF + RC PTFE<br />
Environmental Methods GF/NY RC PTFE<br />
Food and Beverage GF/NY RC PTFE<br />
Clinical / Toxicology RC PES NY<br />
Dissolution Testing GF/NY RC PTFE<br />
Ion Chromatography RC PES PTFE<br />
Trace Metals (ICP-MS, AAS) RC PES NY<br />
Capillary Electrophoresis (CE) RC PES NY<br />
Tissue Cultures, Media, Buffers GF/CA PES RC<br />
Ordering Information<br />
Phenex Syringe Filters<br />
4 mm Diameter<br />
for ≤ 2 mL sample volumes<br />
15 - 17 mm Diameter<br />
for 2 – 10 mL sample volumes<br />
Tip: Try a Sample Pack!<br />
Request yours today by phone or visit<br />
www.phenomenex.com/sample<br />
For high load and particulate-laden samples<br />
you may consider placing a Glass Fiber (GF)<br />
pre-filter in line with the membrane syringe<br />
filter of your choice or choose a filter with an<br />
integrated glass fiber membrane.<br />
25 - 28 mm Diameter<br />
for 10 – 100 mL sample volumes<br />
Membrane Type/Size Part No. Unit Part No. Unit Part No. Unit<br />
0.20 µm<br />
Phenex-RC<br />
AF0-3203-12 100/pk AF0-2203-12 100/pk AF0-8203-12 5 100/pk<br />
(Regenerated Cellulose)<br />
AF0-3203-52 500/pk AF0-2203-52 500/Pk AF0-8203-52 5 500/pk<br />
Phenex-PES 3<br />
— — — — AF0-8208-12 7 100/pk<br />
(Polyethersulfone)<br />
— — — — AF0-8208-52 7 500/pk<br />
Phenex-PTFE 6<br />
AF0-3202-12 100/pk AF0-2202-12 100/pk AF0-1202-12 100/pk<br />
(Polytetrafluoroethylene)<br />
AF0-3202-52 500/pk AF0-2202-52 500/pk AF0-1202-52 500/pk<br />
Phenex-NY<br />
AF3-3207-12 100/pk AF0-2207-12 100/pk AF0-1207-12 100/pk<br />
(Nylon)<br />
AF3-3207-52 500/pk AF0-2207-52 500/pk AF0-1207-52 500/pk<br />
Phenex-GF/NY<br />
An integrated syringe filter unit containing an inert borosilicate glass fiber prefilter and a Nylon AF0-1A47-12<br />
100/pk<br />
(Glass Fiber/Nylon)<br />
(NY) membrane. Excellent for filtration of particle-laden samples, such as foods and beverages,<br />
environmental, biofuels, and dissolution samples. Use less hand pressure to filter even the most<br />
AF0-1A47-52<br />
500/pk<br />
difficult samples. Outlet connection is luer-lock.<br />
Phenex-GF/CA 2,3,4<br />
(Glass Fiber/Cellulose Acetate)<br />
0.45 µm<br />
Phenex-RC<br />
(Regenerated Cellulose)<br />
Phenex-PES 3<br />
(Polyethersulfone)<br />
Phenex-PTFE 6<br />
(Polytetrafluoroethylene)<br />
Phenex-NY<br />
(Nylon)<br />
Phenex-GF/NY<br />
(Glass Fiber/Nylon)<br />
Phenex-GF/CA 2,3,4<br />
(Glass Fiber/Cellulose Acetate)<br />
1.20 µm<br />
Phenex-GF 2,3<br />
(Glass Fiber)<br />
An integrated syringe filter unit containing an inert borosilicate glass fiber prefilter and a CA<br />
membrane. Excellent for filtration of tissue culture media, general biological sample filtration<br />
and clarification. Outlet connection is luer lock.<br />
AF0-8A09-12 7<br />
AF0-8A09-52 7<br />
100/pk<br />
500/pk<br />
AF0-3103-12 100/pk AF0-2103-12 100/pk AF0-8103-12 5 100/pk<br />
AF0-3103-52 500/pk AF0-2103-52 500/Pk AF0-8103-52 5 500/pk<br />
— — AF2-5108-12 1 100/pk AF0-8108-12 7 100/pk<br />
— — — — AF0-8108-52 7 500/pk<br />
AF0-3102-12 100/pk AF0-2102-12 100/pk AF0-1102-12 100/pk<br />
AF0-3102-52 500/pk AF0-2102-52 500/pk AF0-1102-52 500/pk<br />
AF3-3107-12 100/pk AF0-2107-12 100/pk AF0-1107-12 100/pk<br />
AF3-3107-52 500/pk AF0-2107-52 500/pk AF0-1107-52 500/pk<br />
An integrated syringe filter unit containing an inert borosilicate glass fiber prefilter and a Nylon AF0-1B47-12<br />
100/pk<br />
(NY) membrane. Excellent for filtration of particle-laden samples, such as foods and beverages,<br />
AF0-1B47-52<br />
environmental, biofuels, and dissolution samples. Use less hand pressure to filter even the most<br />
500/pk<br />
difficult samples. Outlet connection is luer-lock.<br />
An integrated syringe filter unit containing an inert borosilicate glass fiber prefilter and a CA AF0-8B09-12 7<br />
100/pk<br />
membrane. Excellent for filtration of tissue culture media, general biological sample filtration<br />
and clarification. Outlet connection is luer lock.<br />
AF0-8B09-52 7<br />
500/pk<br />
Prefiltration of heavily contaminated or highly viscous samples. When used in-series preceding<br />
a membrane filter, clogging of the membrane filter is prevented and sample clean up is<br />
optimized. Outlet connection is luer lock.<br />
AF0-8515-12 7<br />
AF0-8515-52 7<br />
100/pk<br />
500/pk<br />
1. 17 mm diameter.<br />
2. Glass fiber filters are 28 mm diameter and made of borosilicate.<br />
They will remove 90 % of all particles >1.2 µm.<br />
3. Housing material is methacrylate butadiene styrene (MBS) polymerisate.<br />
Also known as Cyrolite ® .<br />
4. Cellulose acetate is surfactant-free.<br />
5. 26 mm diameter.<br />
6. Hydrophobic membrane. Can be made hydrophilic by pre-wetting<br />
with IPA.<br />
7. 28 mm diameter.<br />
8. Additional dimensions and membrane types are available. Please<br />
contact your local Phenomenex technical consultant or distributor<br />
for availability or assistance.<br />
9. Larger quantity purchases at significant savings are available.<br />
Above syringe filters are non-sterile. Housing is made of<br />
medical-grade polypropylene (PP), and offer luer lock inlet/slip<br />
outlet connections, unless otherwise indicated.<br />
Phenomenex international@phenomenex.com www.phenomenex.com<br />
3
Sample Preparation<br />
Strata -X<br />
Functionalized Polymeric SPE<br />
Sample Preparation<br />
Tools and Solutions<br />
p. 5<br />
Strata-X<br />
Functionalized Polymeric SPE<br />
p. 6-7<br />
Strata ®<br />
Traditional Silica SPE<br />
p. 8<br />
Strata Impact <br />
Rapid Protein Precipitation<br />
p. 8<br />
4 www.phenomenex.com international@phenomenex.com<br />
Phenomenex
Sample Preparation<br />
Sample Preparation Techniques<br />
Strata -X and Strata ® SPE Strata ® Impact Protein Precipitation Plates<br />
No Method Development Required<br />
X<br />
Increase <strong>Co</strong>lumn Lifetime X X<br />
Superior Protein Removal X X<br />
Superior Lipid Removal<br />
X<br />
Removes Other Matrix <strong>Co</strong>ntaminants X<br />
Specific Selectivity for your Target Analytes X<br />
<strong>Co</strong>ncentrate Sample<br />
X<br />
De-Salt Sample<br />
X<br />
Perform Solvent Switch<br />
X<br />
Available Formats<br />
96-Well Plates Syringe Tubes<br />
Giga Tubes<br />
(12 mL - 150 mL)<br />
On-line Extraction<br />
Cartridge<br />
Strata-X Functionalized Polymeric SPE X X X X X<br />
Strata Traditional SPE X X X X X<br />
Strata Impact Protein Precipitation Plates X<br />
Bulk Sorbent<br />
Strata is a registered trademark of Phenomenex, Inc.<br />
Strata-X, Giga, Sepra, and Impact are trademarks of Phenomenex, Inc.<br />
Strata-X is patented by Phenomenex, Inc.<br />
Sample Preparation Solutions<br />
More than just a product, Strata -X and Strata ® sample preparation products<br />
are supported by customer and technical resources that are dedicated to your<br />
satisfaction and success.<br />
Sample Preparation Specialist<br />
There is a Sample Preparation Specialist dedicated to your company.<br />
<strong>Co</strong>ntact your Sample Preparation Specialist for:<br />
• Industry specific applications and technical resources<br />
• Product support<br />
• Method development assistance<br />
• Any question at all<br />
SPE Method Development Tool<br />
Solid Phase Extraction (SPE) method development tool allows you to quickly<br />
take advantage of the sample cleanup benefits SPE offers by:<br />
• Developing a complete SPE method around your<br />
target compound<br />
• Walking you through method troubleshooting<br />
• Offering method optimization steps for the highest<br />
yields<br />
Access your<br />
Sample Preparation Specialist:<br />
www.phenomenex.com/info/spehelp<br />
SPE Method Development Tool:<br />
www.phenomenex.com/info/mdtool<br />
Phenomenex international@phenomenex.com www.phenomenex.com<br />
5
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Sample Preparation<br />
Strata -X Functionalized Polymeric SPE<br />
Sample Preparation<br />
<strong>Co</strong>mpound of Interest<br />
Neutral<br />
Weak Acid<br />
Strong Acid<br />
Weak Base<br />
Try this Strata-X<br />
SPE Sorbent:<br />
X<br />
X-A<br />
X-AW<br />
X-C<br />
Modified pyrrolidone ligand offers multiple<br />
mechanisms of retention Ṅ .<br />
)n<br />
)n<br />
)n<br />
NH<br />
Ṅ . O<br />
)n<br />
S<br />
Di-methyl butyl quaternary O amine ligand<br />
offers a strong )n anionic mechanism<br />
O H + of<br />
retention n<br />
S O -<br />
)<br />
)n<br />
)n<br />
CH3<br />
OCH3 CI -<br />
Di-amino ligand offers a weak anionic<br />
mechanism of retention<br />
)n<br />
)n<br />
O<br />
OH<br />
O<br />
NH O<br />
2<br />
)n<br />
Sulfonic Acid ligand offers Ṅ . O<br />
a strong<br />
cationic mechanism of retention Ṅ .<br />
)n<br />
)n<br />
N +<br />
NH<br />
O<br />
O<br />
OH<br />
O<br />
O - H +<br />
NH 2<br />
H +<br />
S O O - H +<br />
O S O -<br />
Material Characteristics:<br />
Particle Size (µm) 33<br />
Pore Size (Å) 85<br />
Surface Area (m 2 /g) 800<br />
pH Stability 1-14<br />
Particle Size (µm) 33<br />
Pore Size (Å) 85<br />
Surface Area (m 2 /g) 800<br />
pH Stability 1-14<br />
Ionic Capacity 0.30 meq/g<br />
pK a<br />
~ 14<br />
Particle Size (µm) 33<br />
Pore Size (Å) 85<br />
Surface Area (m 2 /g) 800<br />
pH Stability 1-14<br />
Ionic Capacity 0.60 meq/g<br />
pK a<br />
~ 9<br />
Particle Size (µm) 100<br />
Pore Size (Å) 300<br />
Surface Area (m 2 /g) 520<br />
pH Stability 1-14<br />
Ionic Capacity 1 meq/g<br />
pK a<br />
~ 0<br />
Strong Base<br />
All Strata-X phases (X, X-A, X-AW, X-C and X-CW) are also available NH in NH<br />
)n<br />
a 2 large particle / large pore size formats<br />
Sample Type<br />
• Large Target Analyte (> 10kDa)<br />
• Large Volume Samples<br />
• Viscous Samples<br />
X-CW<br />
Carboxylic Acid ligand offers O a weak<br />
cationic mechanism of retention<br />
)n<br />
)n<br />
)n<br />
Use Strata-XL<br />
NH<br />
Phase:<br />
XL, XL-A, XL-AW,<br />
XL-C or XL-CW<br />
O<br />
O<br />
OH<br />
OH<br />
NH 2<br />
Particle Size (µm) 100<br />
Pore Size (Å) 300<br />
Surface Area (m 2 /g) 520<br />
pH Stability 1-14<br />
Ionic Capacity 0.76 meq/g<br />
pK a<br />
~ 4.5<br />
Material Characteristics<br />
Particle Size (µm) 100<br />
Pore Size (Å) 300<br />
Surface Area (m 2 /g) 520<br />
pH Stability 1-14<br />
Determine the <strong>Co</strong>rrect Sorbent Mass<br />
Strata -X, X-C, X-CW,<br />
X-A, X-AW, XL, XL-C,<br />
XL-CW, XL-A, XL-AW<br />
Sorbent Mass<br />
(in tube) Plasma/Serum Urine<br />
Filtered Tissue<br />
Homogenates<br />
Water<br />
(particulate-free)<br />
Water<br />
(particulate-laden)<br />
10 mg 100 µL 250 µL 10 mg 2 mL 1 mL<br />
30 mg 250 µL 1 mL 50 mg 10 mL 5 mL<br />
60 mg 500 µL 2 mL 100 mg 25 mL 10 mL<br />
100 mg 1 mL 4 mL 150 mg 50 mL 25 mL<br />
200 mg 2 mL 8 mL 300 mg 100 mL 50 mL<br />
500 mg 5 mL 20 mL 500 mg 500 mL 100 mL<br />
Determine the <strong>Co</strong>rrect Sorbent Wash and Elution Volumes<br />
10 mg 30 mg 60 mg 100 mg 150 mg 200 mg 500 mg 1 g 2 g 5 g 10 g<br />
Sorbent Mass<br />
Practical Minimum Wash and<br />
Elution Volume 4 bed volumes 100 µL 300 µL 600 µL 1 mL 1.5 mL 2 mL 5 mL 10 mL 20 mL 50 mL 100 mL<br />
Recommended Wash and<br />
Elution Volume 8 bed volumes<br />
200 µL 600 µL 1.2 mL 2 mL 3 mL 4 mL 10 mL 20 mL 40 mL 100 mL 200 mL<br />
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Phenomenex
Sample Preparation<br />
Strata -X Functionalized Polymeric SPE<br />
Strata -X <strong>Co</strong>mpound-Directed Phase Selection<br />
<strong>Co</strong>mpound-Directed Phase Selection<br />
Strata -X<br />
Strata -XL<br />
Analyte pK a<br />
0 1 2 3 4 5 6 Neutral 8 9 10 11 12 13 14<br />
Neutral Analyte or Analyte with log P > -0.5<br />
Modified N-Vinylpyrrolidone functional group results in multiple mechanisms of retention for the widest<br />
range of selectivity. Strong retention of neutral compounds allows for aggressive washes for increased<br />
sensitivity and method reproducibility.<br />
Strata -X-A<br />
Strata -XL-A<br />
Strata -X-AW<br />
Strata -XL-AW<br />
Strata -X-C<br />
Strata -XL-C<br />
Strata -X-CW<br />
Strata -XL-CW<br />
Acidic Analyte pK a ≥ 2<br />
Dimethyl butyl quaternary amine functional group<br />
provides strong retention of weakly acidic analytes<br />
and allows for 100 % organic washes, increasing<br />
sensitivity and method reproducibility.<br />
Acidic Analyte pK a ≤ 5<br />
Di-amino functional group is highly selective for charged<br />
acidic compounds and allows for 100 % organic washes,<br />
increasing sensitivity and method reproducibility.<br />
Basic Analyte pK a ≤ 10.5<br />
Sulfonic acid functional group is highly selective for weakly basic<br />
compounds and allows for 100 % organic washes, increasing<br />
sensitivity and method reproducibility.<br />
Basic Analyte pK a ≥ 8<br />
Carboxylic acid functional group allows for reversible binding<br />
of strong bases and quaternary amines. High selectivity for all<br />
basic compounds allows for 100 % organic washes, increasing<br />
sensitivity and method reproducibility.<br />
Traditional Polypropylene Tubes<br />
1 mL (100/box) 6 mL (30/box)<br />
Phase 10 mg 30 mg 60 mg 100 mg 200 mg 500 mg 1 g<br />
Strata-X-AW – 8B-S038-TAK – 8B-S038-ECH 8B-S038-FCH 8B-S038-HCH –<br />
Strata-X-A – 8B-S123-TAK – 8B-S123-ECH 8B-S123-FCH 8B-S123-HCH –<br />
Strata-X 8B-S100-AAK 8B-S100-TAK ‡ 8B-S100-UAK 8B-S100-ECH 8B-S100-FCH 8B-S100-HCH –<br />
Strata-X-C 8B-S029-AAK 8B-S029-TAK ‡ – 8B-S029-ECH 8B-S029-FCH 8B-S029-HCH –<br />
Strata-X-CW – 8B-S035-TAK – 8B-S035-ECH 8B-S035-FCH 8B-S035-HCH 8B-S035-JCH<br />
Strata-XL-AW – 8B-S051-TAK – 8B-S051-ECH 8B-S051-FCH 8B-S051-HCH –<br />
Strata-XL-A – 8B-S053-TAK – 8B-S053-ECH 8B-S053-FCH 8B-S053-HCH –<br />
Strata-XL – 8B-S043-TAK – 8B-S043-ECH 8B-S043-FCH 8B-S043-HCH –<br />
Strata-XL-C – 8B-S044-TAK – 8B-S044-ECH 8B-S044-FCH 8B-S044-HCH –<br />
Strata-XL-CW – 8B-S052-TAK – 8B-S052-ECH 8B-S052-FCH 8B-S052-HCH –<br />
3 mL (50/box)<br />
Phase 30 mg 60 mg 100 mg 200 mg 500 mg<br />
Strata-X-AW 8B-S038-TBJ 8B-S038-UBJ 8B-S038-EBJ 8B-S038-FBJ 8B-S038-HBJ<br />
Strata-X-A 8B-S123-TBJ 8B-S123-UBJ 8B-S123-EBJ 8B-S123-FBJ 8B-S123-HBJ<br />
Strata-X 8B-S100-TBJ 8B-S100-UBJ ‡ 8B-S100-EBJ 8B-S100-FBJ † 8B-S100-HBJ<br />
Strata-X-C 8B-S029-TBJ 8B-S029-UBJ ‡ 8B-S029-EBJ 8B-S029-FBJ 8B-S029-HBJ<br />
Strata-X-CW 8B-S035-TBJ 8B-S035-UBJ – 8B-S035-FBJ 8B-S035-HBJ<br />
Strata-XL-AW – 8B-S051-UBJ 8B-S051-EBJ 8B-S051-FBJ 8B-S051-HBJ<br />
Strata-XL-A – 8B-S053-UBJ 8B-S053-EBJ 8B-S053-FBJ 8B-S053-HBJ<br />
Strata-XL – 8B-S043-UBJ 8B-S043-EBJ 8B-S043-FBJ 8B-S043-HBJ<br />
Strata-XL-C – 8B-S044-UBJ 8B-S044-EBJ 8B-S044-FBJ 8B-S044-HBJ<br />
Strata-XL-CW – 8B-S052-UBJ 8B-S052-EBJ 8B-S052-FBJ 8B-S052-HBJ<br />
On-Line Cartridges (1 ea)*<br />
Phase<br />
20 x 2.0 mm<br />
Strata-X-AW –<br />
Strata-X-A –<br />
Strata-X<br />
00M-S033-B0-CB<br />
Strata-X-C 00M-S048-B0-CB<br />
Strata-X-CW 00M-S036-B0-CB<br />
Strata-XL-AW –<br />
Strata-XL-A –<br />
Strata-XL –<br />
Strata-XL-C –<br />
Strata-XL-CW –<br />
*Requires 20 mm Cartridge Holder (CH0-5845)<br />
96-Well Plates, 2 mL (2/box)<br />
Phase 10 mg 30 mg 60 mg<br />
Strata-X-AW 8E-S038-AGB 8E-S038-TGB 8E-S038-UGB<br />
Strata-X-A 8E-S123-AGB 8E-S123-TGB 8E-S123-UGB<br />
Strata-X 8E-S100-AGB 8E-S100-TGB 8E-S100-UGB<br />
Strata-X-C 8E-S029-AGB 8E-S029-TGB 8E-S029-UGB<br />
Strata-X-CW 8E-S035-AGB 8E-S035-TGB 8E-S035-UGB<br />
Strata-XL-AW – 8E-S051-TGB –<br />
Strata-XL-A – 8E-S053-TGB –<br />
Strata-XL – 8E-S043-TGB –<br />
Strata-XL-C – 8E-S044-TGB –<br />
Strata-XL-CW – 8E-S052-TGB –<br />
12 mL (20/box) 20 mL (20/box) 60 mL (16/box) 150 mL (8/box)<br />
Phase 500 mg 1 g 2 g 1 g 2 g 5 g 5 g 10 g 20 g 50 g<br />
Strata-X-AW 8B-S038-HDG 8B-S038-JDG – 8B-S038-JEG 8B-S038-KEG – 8B-S038-LFF – – –<br />
Strata-X-A 8B-S123-HDG 8B-S123-JDG – 8B-S123-JEG 8B-S123-KEG – 8B-S123-LFF – – –<br />
Strata-X 8B-S100-HDG 8B-S100-JDG – 8B-S100-JEG 8B-S100-KEG – 8B-S100-LFF 8B-S100-MFF 8B-S100-VFF 8B-S100-YSN<br />
Strata-X-C 8B-S029-HDG 8B-S029-JDG – 8B-S029-JEG 8B-S029-KEG – 8B-S029-LFF 8B-S029-MFF 8B-S029-VFF –<br />
Strata-X-CW 8B-S035-HDG 8B-S035-JDG – 8B-S035-JEG 8B-S035-KEG – 8B-S035-LFF – – –<br />
Strata-XL-AW – – 8B-S051-KDG – 8B-S051-KEG 8B-S051-LEG 8B-S051-LFF 8B-S051-MFF 8B-S051-VFF –<br />
Strata-XL-A – – 8B-S053-KDG – 8B-S053-KEG 8B-S053-LEG 8B-S053-LFF 8B-S053-MFF – –<br />
Strata-XL – – 8B-S043-KDG – 8B-S043-KEG 8B-S043-LEG 8B-S043-LFF 8B-S043-MFF 8B-S043-VFF 8B-S043-YSN<br />
Strata-XL-C – – 8B-S044-KDG – 8B-S044-KEG 8B-S044-LEG 8B-S044-LFF 8B-S044-MFF 8B-S044-VFF –<br />
Strata-XL-CW – – 8B-S052-KDG – 8B-S052-KEG 8B-S052-LEG 8B-S052-LFF 8B-S052-MFF – –<br />
‡ Available in tabless<br />
Phenomenex international@phenomenex.com www.phenomenex.com<br />
7
Sample Preparation Strata ®<br />
Strata Traditional Solid Phase Extraction<br />
(SPE) Sorbents<br />
If you do not currently use polymeric SPE sorbents, contact us today for any of<br />
the traditional silica SPE sorbents seen in the table below.<br />
Determine the <strong>Co</strong>rrect Sorbent Mass<br />
Phases<br />
Reversed Phases Normal Phases Ion-Exchange Mixed-Mode Specialty<br />
C18-E CN SCX Screen-C GF FL-PR (Acids)<br />
C18-U NH 1<br />
WCK Screen-C EPH ( Extratable Petroleum (Hydrocarbon)<br />
C18-T Si-1 (Silica) SAK Screen-A AL-N Aluminum Neutral<br />
C8 ABW SCB-L<br />
Phenyl<br />
Eco-Screen<br />
Melamine,<br />
PAH<br />
Biological Sample Cleanup<br />
Strata ® Impact <br />
Rapid Protein Precipitation Without Centrifugation<br />
• Quickly cleanup sample by passing biological samples<br />
through the centrifugation-free protein precipitation plate<br />
• Increase sensitivity of your analysis by eliminating<br />
proteins which contribute to baseline noise<br />
• Increase reproducibility with the leak-free membrane,<br />
preventing premature sample breakthrough and<br />
incomplete protein precipitation<br />
Solvent<br />
Shielding<br />
Technology <br />
prevents<br />
leaks<br />
Leak<br />
occurs<br />
Standard<br />
Precipitation Plate<br />
Leak-free<br />
Strata Impact Plate<br />
Can retain acetonitrile with no leaks for<br />
greater than 20 minutes<br />
Ordering Information<br />
Strata Impact Precipitation Plates<br />
Part No. Description Unit/Box<br />
Strata Impact Precipitation Plates<br />
CE0-7565 Strata Impact Protein Precipitation, Square Well, 2<br />
Filter Plate, 2 mL<br />
Strata Impact Starter Kit for Protein Precipitation<br />
CE0-8201 Strata Impact Protein Precipitation Plate (2 ea)<br />
<strong>Co</strong>llection Plate 2 mL (2 ea)<br />
Sealing Mat, Santoprene (AH0-8199) (2 ea)<br />
ea<br />
‡<br />
When used with a liquid-handling instrument or automation, the pipette<br />
tip can aspirate sample followed by organic for in-tip precipitation initiation<br />
prior to application of the sample to the organic in the well. Vortexing is not<br />
necessary when in-tip precipitation is performed.<br />
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Phenomenex
GC <strong>Co</strong>lumns<br />
Zebron GC <strong>Co</strong>lumns<br />
GC <strong>Co</strong>lumn Selection by Manufacturer p. 10<br />
GC <strong>Co</strong>lumn Selection by Analyte/<strong>Co</strong>mpound p. 11<br />
Zebron ZB-1ms p. 12<br />
Zebron ZB-1HT Inferno p. 13<br />
Zebron ZB-5ms p. 14<br />
Zebron ZB-5HT Inferno p. 15<br />
Zebron ZB-624 p. 16<br />
Zebron ZB-WAXPLUS p. 17<br />
Zebron ZB-Multiresidue 1 and 2 p. 18-19<br />
Zebron ZB-Drug-1 p. 20<br />
Zebron ZB-1XT SimDist p. 21<br />
Phenomenex international@phenomenex.com www.phenomenex.com<br />
9
GC <strong>Co</strong>lumn Selection<br />
By Manufacturer<br />
<strong>Co</strong>mposition<br />
100 % dimethylpolysiloxane<br />
100 % dimethylpolysiloxane<br />
100 % dimethylpolysiloxane<br />
100 % dimethylpolysiloxane<br />
5 %-phenyl-<br />
95 %-dimethylpolysiloxane<br />
5 %-phenyl-<br />
95 %-dimethylpolysiloxane<br />
5 %-phenyl-<br />
95 %-dimethylpolysiloxane<br />
5 %-phenyl-Arylene-<br />
95 %-dimethylpolysiloxane<br />
35 %-phenyl-<br />
65 %-dimethylpolysiloxane<br />
Phenomenex<br />
Zebron<br />
ZB-1<br />
Restek<br />
Rtx ® -1,<br />
Rtx-1PONA,<br />
Rtx-1 F&F<br />
Agilent<br />
Technologies<br />
(J&W)<br />
DB-1,<br />
DB-2887,<br />
DB-1 EVDX<br />
ZB-1ms Rtx-1MS DB-1ms<br />
Supelco<br />
SPB-1, SPB-1 TG,<br />
SE-30, MET-1, SPB-<br />
1 Sulfur, SPB-HAP<br />
MDN-1,<br />
Equity-1<br />
Agilent<br />
Technologies<br />
(HP) Alltech SGE<br />
HP-1,<br />
HP-101,<br />
HP-PONA, Ultra 1<br />
AT-1,<br />
AT-Sulfur,<br />
EC-1<br />
BP1, BP1-PONA,<br />
BPX1-SimD<br />
HP-1ms AT-1ms SolGel-1ms<br />
Varian<br />
(Chrompack)<br />
CP-Sil 5 CB<br />
CP-Sil 5 CB MS,<br />
VF-1ms<br />
ZB-1HT Inferno MXT ® -1 SimDist DB-1ht Petrocol 2887 CP-SimDist<br />
ZB-1XT SimDist MXT ® -1HT SimDist DB-HT Sim Dis<br />
ZB-5 Rtx-5 DB-5<br />
ZB-5MSi<br />
ZB-5HT Inferno<br />
ZB-5ms<br />
ZB-35<br />
MDN-5, SPB-5,<br />
PTE-5, SE-54, PTA-<br />
5, Equity-5, Sac-5<br />
HP-5,<br />
Ultra 2,<br />
HP-PAS-5<br />
Rtx-5MS,<br />
Rtx-5Amine, Rxi ® -5ms DB-5 MDN-5S HP-5ms,<br />
HP-5msi<br />
Stx ® -5HT,<br />
XTI ® -5HT<br />
Rtx-5Sil MS<br />
Rtx-35,<br />
Rtx-35MS<br />
AT-5,<br />
EC-5<br />
BP5,<br />
BPX5<br />
CP-SimDist<br />
UltiMetal<br />
CP-Sil 8 CB<br />
DB-5ht HT-5 VF-5ht<br />
DB-5ms,<br />
DB-5.625,<br />
DB-5ms EVDX<br />
DB-35,<br />
DB-35ms<br />
MDN-35,<br />
SPB-35,<br />
SPB-608<br />
HP-35,<br />
HP-35ms<br />
AT-35<br />
BPX35,<br />
BPX608<br />
VF-5ms,<br />
CP-Sil 8 CB MS<br />
OV<br />
OV-1<br />
OV-5<br />
OV-11<br />
Proprietary<br />
ZB-35HT Inferno<br />
50 %-phenyl-<br />
50 %-dimethylpolysiloxane<br />
ZB-50<br />
6 %-cyanopropylphenyl-94<br />
%-dimethylpolysiloxane<br />
ZB-624<br />
14 %-cyanopropylphenyl-86<br />
%-dimethylpolysiloxane<br />
14 %-cyanopropylphenyl-86<br />
%-dimethylpolysiloxane<br />
ZB-1701P<br />
Rtx-50<br />
Rtx-1301,<br />
Rtx-624<br />
DB-17, DB- SP-2250,<br />
17HT, DB-17ms, SPB-17,<br />
DB-17 EVDX SPB-50<br />
DB-1301,<br />
DB-624,<br />
DB-VRX<br />
ZB-1701 Rtx-1701 DB-1701<br />
DB-1701P<br />
Polyethylene glycol ZB-WAX<br />
Rtx-WAX, Famewax,<br />
Stabilwax-DB<br />
DB-WAXetr<br />
DB-WAX,<br />
Polyethylene glycol ZB-WAXplus Stabilwax ® CAM<br />
Nitroterephthalic acid<br />
modified polyethylene ZB-FFAP Stabilwax-DA DB-FFAP<br />
glycol<br />
Proprietary<br />
MultiResidue-1 Rtx-CLPesticides,<br />
(MR-1)<br />
Stx-CLPesticides<br />
Proprietary<br />
MultiResidue-2<br />
(MR-2)<br />
Rtx-CLPesticides2,<br />
Stx-CLPesticides2<br />
SPB-1301,<br />
SPB-624<br />
SPB-1701,<br />
Equity-1701<br />
Met-Wax,<br />
Omegawax<br />
Supelcowax 10<br />
Nukol,<br />
SPB-1000<br />
HP-50+ AT-50 BPX50 CP-Sil 24 CB<br />
HP-VOC<br />
AT-624,<br />
AT-1301<br />
BP624<br />
CP-1301,<br />
CP-Select 624 CB<br />
OV- 624<br />
AT-1701 BP10 CP-Sil 19 CB OV -1701<br />
HP-INNOWax EC-Wax SolGel-WAX CP-Wax 57 CB<br />
HP-20M,<br />
Carbowax 20M<br />
HP-FFAP<br />
AT-Wax,<br />
AT-AquaWax<br />
AT-1000,<br />
EC-1000<br />
BP20<br />
BP21<br />
CP-Wax 52 CB<br />
CP-Wax 58<br />
(FFAP) CB,<br />
CP-FFAP CB<br />
Proprietary ZB-XLB Rtx-XLB DB-XLB MDN-12 VF-XMS<br />
Carbowax<br />
20M<br />
OV-351<br />
Proprietary<br />
Proprietary<br />
ZB-XLB-HT Inferno<br />
ZB-Drug-1<br />
Proprietary ZB-BAC1 Rtx-BAC1 DB-ALC1<br />
Proprietary ZB-BAC2 Rtx-BAC2 DB-ALC2<br />
Proprietary<br />
ZB-Bioethanol<br />
This section is, neither in terms of manufacturers nor in terms of their products, a complete list, and the accuracy of the data is not<br />
guaranteed. Small differences in dimensions or performance might be possible and slight adjustments to your application may be<br />
necessary.<br />
All trademarks are property of their respective owners. Phenomenex is in no way affiliated with<br />
companies listed above.<br />
10 www.phenomenex.com international@phenomenex.com<br />
Phenomenex
GC <strong>Co</strong>lumn Selection<br />
Choose the best Zebron GC column based on your<br />
analyte/compound of interest.<br />
Your Analytes<br />
Non-Polar<br />
Mixed-Polarity<br />
Polar<br />
Semi-Volatile<br />
Volatile<br />
General Analytes<br />
Pesticides<br />
ZB-5ms<br />
ZB-MR-1<br />
ZB-XLB-HT Inferno <br />
ZB-35HT Inferno <br />
ZB-MR-1<br />
ZB-MR-2<br />
ZB-5ms<br />
ZB-XLB-HT Inferno <br />
ZB-35HT Inferno <br />
ZB-624<br />
ZB-WAXPLUS <br />
ZB-WAX<br />
ZB-1*<br />
*Thick Film (≥1.00 µm)<br />
Semi-Volatile<br />
Volatile<br />
Base<br />
Neutral<br />
Acidic<br />
ZB-624<br />
ZB-WAXPLUS <br />
ZB-WAX<br />
ZB-WAX<br />
ZB-XLB-HT Inferno <br />
ZB-WAX<br />
ZB-50<br />
ZB-35HT Inferno <br />
ZB-XLB-HT Inferno <br />
ZB-MR-2<br />
ZB-FFAP<br />
ZB-XLB-HT Inferno <br />
ZB-MR-2<br />
Volatile<br />
Semi-Volatile<br />
ZB-1*<br />
ZB-5*<br />
PLOT<br />
*Thick Film (≥1.00 µm)<br />
ZB-1ms<br />
ZB-5ms<br />
ZB-5MSi<br />
ZB-1HT Inferno <br />
ZB-5HT Inferno <br />
ZB-XLB-HT Inferno <br />
ZB-35<br />
ZB-1XT SimDist<br />
Phenomenex international@phenomenex.com www.phenomenex.com<br />
11
Zebron <br />
GC <strong>Co</strong>lumns<br />
ZB-1ms<br />
• Very low bleed (MS Certified) especially suited to high<br />
sensitivity GC/MS<br />
• Extremely inert for active compounds such as drugs,<br />
pesticides, or acids and bases<br />
• Improved signal-to-noise ratio for better sensitivity and<br />
mass spectral integrity<br />
• Identical selectivity to the ZB-1<br />
<strong>Co</strong>lumn Profile<br />
Low<br />
5<br />
Polarity<br />
Bleed<br />
Temperature Limits<br />
Stability<br />
High<br />
• Equivalent to USP Phase G2<br />
• Temperature Limits: -60 to 360/370 °C (Isothermal/TPGC)<br />
Applications<br />
• Amines<br />
• Acids<br />
• Diesel Fuel<br />
• Polychlorinated<br />
Biphenyls (EPA Method<br />
1668)<br />
• Drugs of abuse<br />
• Flavors & Fragrances<br />
• Pesticides<br />
Alternative to Any MS-Certified 100 % Dimethylpolysiloxane Phase:<br />
• DB-1ms<br />
• HP-1ms<br />
• AT-1ms<br />
• MDN-1<br />
• Rtx-1MS<br />
• VF-1ms<br />
• SOLGEL-1ms<br />
• Equity-1<br />
• CP-Sil 5 CB ms<br />
Lower Overall <strong>Co</strong>lumn Activity<br />
Activity is a key measure of column quality. This is why Zebron<br />
ZB-1ms columns are aggressively tested to ensure full deactivation.<br />
Below is an example of the aggressive QC test mix we use,<br />
notice the low tailing for even the most active compounds like<br />
2-Ethylhexanoic Acid!<br />
Test <strong>Co</strong>nditions for Zebron ZB-1ms<br />
1<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6 7<br />
<strong>Co</strong>lumn: Zebron ZB-1ms<br />
Dimensions: 30 meter x 0.25 mm x 0.25 µm<br />
Part No.: 7HG-G011-11<br />
Injection: Split Flow 100 mL/min @ 250 °C, 1.0 µL<br />
Carrier Gas: Hydrogen @ 1.18 mL/min (constant flow)<br />
Oven Program: 140 °C (Isothermal)<br />
Detector: FID @ 325 °C<br />
Sample: 1. Decane<br />
2. 2-Ethylhexanoic Acid<br />
3. 4-Chlorophenol<br />
4. Naphthalene<br />
5. Tridecane<br />
6. 1-Undecanol<br />
7. Dicyclohexylamine<br />
8. Pentadecane<br />
5 10 min<br />
8<br />
App ID 15545<br />
Ordering Information<br />
Zebron ZB-1ms GC <strong>Co</strong>lumns<br />
ID(mm) df(µm) Temp. Limits °C Part No.<br />
10-Meter<br />
0.10 0.10 -60 to 360/370 7CB-G011-02<br />
0.18 0.18 -60 to 360/370 7CD-G011-08<br />
12-Meter<br />
0.20 0.33 -60 to 360/370 7DE-G011-14<br />
15-Meter<br />
0.25 0.25 -60 to 360/370 7EG-G011-11<br />
0.32 0.25 -60 to 360/370 7EM-G011-11<br />
20-Meter<br />
0.18 0.18 -60 to 360/370 7FD-G011-08<br />
25-Meter<br />
0.20 0.33 -60 to 360/370 7GE-G011-14<br />
30-Meter<br />
0.25 0.10 -60 to 360/370 7HG-G011-02<br />
0.25 0.25 -60 to 360/370 7HG-G011-11<br />
0.25 0.50 -60 to 360/370 7HG-G011-17<br />
0.25 1.00 -60 to 360/370 7HG-G011-22<br />
0.32 0.25 -60 to 360/370 7HM-G011-11<br />
0.32 1.00 -60 to 360/370 7HM-G011-22<br />
0.53 1.00 -60 to 360/370 7HK-G011-22<br />
60-Meter<br />
0.25 0.25 -60 to 360/370 7KG-G011-11<br />
0.25 1.00 -60 to 360/370 7KG-G011-22<br />
0.32 1.00 -60 to 360/370 7KM-G011-22<br />
Note: If you need a 5 in. cage, simply add a (-B) after the part number, e.g., 7HG-G011-11-B. Some<br />
exceptions may apply. Agilent 6850 and some SRI and process GC systems use only 5 in. cages.<br />
<strong>Co</strong>ntact Phenomenex or your local Phenomenex distributor<br />
for additional GC products and applications.<br />
12 www.phenomenex.com international@phenomenex.com<br />
Phenomenex
Zebron <br />
GC <strong>Co</strong>lumns<br />
ZB-1HT Inferno <br />
• First non-metal columns stable to 430 °C<br />
• Provides true boiling point separation for hydrocarbon<br />
distillation methods<br />
• Longer lifetime with rugged high temperature, polyimide<br />
coated, fused silica tubing<br />
• Low activity, provides good peak shape for acidic and<br />
basic samples<br />
• Provides robust column performance for high<br />
temperature bake outs<br />
• Individually tested for low bleed, MS certified<br />
• Temperature Limits: -60 to 400/430 °C<br />
(Isothermal/TPGC)*<br />
Alternative to Any 100 % Dimethylpolysiloxane High Temperature<br />
Phase:<br />
• DB-1ht<br />
• MXT-1 SimDist • Petrocol 2887 • CP-SimDist<br />
<strong>Co</strong>lumn Profile<br />
Low<br />
Polarity<br />
Bleed<br />
Temperature Limits<br />
Stability<br />
Applications<br />
5<br />
• High Boiling Petroleum <strong>Products</strong><br />
• Simulated Distillation Methods<br />
• Long-chained Hydrocarbons<br />
• High Molecular Weight Waxes<br />
• Polymers/Plastics<br />
• Motor Oils<br />
• Diesel Fuel<br />
2007 R&D 100<br />
Award Recipient<br />
High<br />
Extended<br />
16148<br />
SimDist: ASTM Method D 6352<br />
0<br />
1<br />
2<br />
3<br />
Sample:<br />
1. C10<br />
2. C11<br />
3. C12<br />
4. C13<br />
5. C14<br />
6. C15<br />
7. C16<br />
8. C17<br />
9. Pristane<br />
10. C18<br />
4<br />
5 6 7 9<br />
31 33<br />
8 10 12<br />
11 13 14 15<br />
27 29<br />
1617 18 19 21<br />
23<br />
25<br />
20 22<br />
24<br />
26<br />
28<br />
11. Phytane<br />
12. C19<br />
13. C20<br />
14. C21<br />
15. C22<br />
16. C23<br />
17. C24<br />
18. C25<br />
19. C26<br />
20. C27<br />
21. C28<br />
22. C29<br />
23. C30<br />
24. C31<br />
25. C32<br />
26. C33<br />
27. C34<br />
28. C35<br />
29. C36<br />
30. C37<br />
30<br />
32<br />
34<br />
35 36 3738<br />
39 40<br />
41<br />
42434445<br />
46<br />
47<br />
48<br />
49 56 58<br />
5051 52 54 57<br />
53 55<br />
App ID 16148<br />
10 20 min<br />
<strong>Co</strong>lumn: Zebron ZB-1HT Inferno<br />
Dimensions: 5 meter x 0.53 mm x 0.10 μm<br />
Part No.: 7AK-G014-02<br />
Injection: On-<strong>Co</strong>lumn @ 43 °C, 0.1 μL<br />
Carrier Gas: Helium @ 4.4 mL/min (constant flow)<br />
Oven Program: 40 °C for 0.5 min to 430 °C @ 20 °C/min for 10 min<br />
Detector: FID @ 430 °C<br />
31. C38<br />
32. C39<br />
33. C40<br />
34. C42<br />
35. C44<br />
36. C46<br />
37. C48<br />
38. C50<br />
39. C52<br />
40. C54<br />
41. C56<br />
42. C58<br />
43. C60<br />
44. C62<br />
45. C64<br />
46. C66<br />
47. C68<br />
48. C70<br />
49. C72<br />
50. C74<br />
Note: Sample was a combination of PolyWax 655 and retention time markers C8-C40 in<br />
CS2/Chloroform<br />
51. C76<br />
52. C78<br />
53. C80<br />
54. C82<br />
55. C84<br />
56. C86<br />
57. C88<br />
58. C90<br />
Ordering Information<br />
Zebron ZB-1HT Inferno GC <strong>Co</strong>lumns<br />
ID(mm) df(µm) Temp. Limits °C Part No.<br />
5-Meter<br />
0.53 0.10 -60 to 400/430 7AK-G014-02<br />
15-Meter<br />
0.25 0.10 -60 to 400/430 7EG-G014-02<br />
0.32 0.10 -60 to 400/430 7EM-G014-02<br />
0.32 0.25 -60 to 400/430 7EM-G014-11<br />
0.53 0.15 -60 to 400 7EK-G014-05<br />
20-Meter<br />
0.18 0.18 -60 to 400/430 7FD-G014-08<br />
30-Meter<br />
0.25 0.10 -60 to 400/430 7HG-G014-02<br />
0.25 0.25 -60 to 400/430 7HG-G014-11<br />
0.32 0.10 -60 to 400/430 7HM-G014-02<br />
0.32 0.25 -60 to 400/430 7HM-G014-11<br />
0.53 0.15 -60 to 400 7HK-G014-05<br />
Note: If you need a 5 in. cage, simply add a (-B) after the part number, e.g., 7HG-G014-11-B. Some<br />
exceptions may apply. Agilent 6850 and some SRI and process GC systems use only 5 in. cages.<br />
*0.53 mm ID columns are rated to 400 ˚C max operational<br />
temperature.<br />
<strong>Co</strong>ntact Phenomenex or your local Phenomenex distributor for<br />
additional GC products and applications.<br />
Phenomenex international@phenomenex.com www.phenomenex.com<br />
13
Zebron <br />
GC <strong>Co</strong>lumns<br />
ZB-5ms<br />
• A popular and rugged GC column for general use<br />
<br />
• Arylene Matrix Technology (AMT) provides a highly<br />
stable arylene phase<br />
• Fully conditioned within 35 minutes<br />
• High response for acids and bases = Very low activity<br />
• Enhanced resolution of Polyaromatic Hydrocarbons<br />
(PAHs) and other multi-ring aromatic compounds<br />
<strong>Co</strong>lumn Profile<br />
Low<br />
Polarity<br />
Bleed<br />
Temperature Limits<br />
Stability<br />
8<br />
High<br />
• Our column of choice for EPA Methods 525, 610, 625,<br />
8100, and 8270<br />
• Equivalent to USP Phase G27<br />
• Temperature Limits: -60 to 325/350 ˚C (Isothermal/TPGC)<br />
Applications<br />
• Acids<br />
• Alkaloids<br />
• Amines<br />
• Dioxins<br />
• Drugs<br />
• Essential Oils/Flavors<br />
• FAMEs<br />
• Halo-hydrocarbons<br />
• PCBs/Aroclors<br />
• Phenols<br />
• Residual Solvents<br />
• Semi-volatiles<br />
• Solvent Impurities<br />
• Pesticides/Herbicides<br />
• EPA Methods 525, 610,<br />
625, 8100, 8270<br />
Alternative to Any MS-Certified 5 %-Phenyl-Arylene-<br />
95 %-Dimethylpolysiloxane Phase:<br />
• DB-5ms<br />
• DB-5ms EVDX<br />
Long Lifetime<br />
<strong>Co</strong>nsistent response after more than 700 samples at pH 2!<br />
Peak Skew<br />
1.5<br />
0.5<br />
1<br />
2.0<br />
2,4-Dichlorophenol<br />
Hexachlorobutadiene<br />
0 140 280 420 560 700<br />
Sample No.<br />
Reproducible Results<br />
2<br />
3<br />
4 5<br />
6<br />
• VF-5ms<br />
• CP-Sil 8 CB MS<br />
7 8<br />
3.0 4.0 5.0 6.0 7.0 8.0 min<br />
<strong>Co</strong>lumn: Zebron ZB-5ms<br />
Dimensions: 30 meter x 0.25 mm x 0.25 µm<br />
Part No.: 7HG-G010-11<br />
Injection: Split 1:100 @ 250 °C, 1.4 µL<br />
Carrier Gas: Hydrogen @ 140 °C, 40 cm/sec<br />
Oven Program: 140 °C (Isothermal)<br />
Detector: FID @ 325 °C<br />
Sample: 1. Decane<br />
2. 2-Ethylhexanoic Acid<br />
3. 1,6-Hexanediol<br />
4. 4-Chlorophenol<br />
5. Tridecane<br />
6. 1-Methylnaphthalene<br />
7. 1-Undecanol<br />
8. Tetradecane<br />
9. Dicyclohexylamine<br />
10. Pentadecane<br />
9<br />
• DB-5.625<br />
• Rtx-5Sil MS<br />
10<br />
Lot 4<br />
Lot 3<br />
Lot 2<br />
Lot 1<br />
Ordering Information<br />
Zebron ZB-5ms GC <strong>Co</strong>lumns<br />
ID(mm) df(µm) Temp. Limits °C Part No.<br />
10-Meter<br />
0.10 0.10 -60 to 325/350 7CB-G010-02<br />
0.18 0.18 -60 to 325/350 7CD-G010-08<br />
12-Meter<br />
0.20 0.33 -60 to 325/350 7DE-G010-14<br />
15-Meter<br />
0.25 0.25 -60 to 325/350 7EG-G010-11<br />
20-Meter<br />
0.18 0.18 -60 to 325/350 7FD-G010-08<br />
0.18 0.32 -60 to 325/350 7FD-G010-51<br />
0.18 0.36 -60 to 325/350 7FD-G010-53<br />
25-Meter<br />
0.20 0.33 -60 to 325/350 7GE-G010-14<br />
30-Meter<br />
0.25 0.25 -60 to 325/350 7HG-G010-11<br />
0.25 0.50 -60 to 325/350 7HG-G010-17<br />
0.25 1.00 -60 to 325/350 7HG-G010-22<br />
0.32 0.25 -60 to 325/350 7HM-G010-11<br />
0.32 0.50 -60 to 325/350 7HM-G010-17<br />
0.32 1.00 -60 to 325/350 7HM-G010-22<br />
60-Meter<br />
0.25 0.25 -60 to 325/350 7KG-G010-11<br />
0.32 0.25 -60 to 325/350 7KM-G010-11<br />
Note: If you need a 5 in. cage, simply add a (-B) after the part number, e.g., 7HG-G010-11-B. Some<br />
exceptions may apply. Agilent 6850 and some SRI and process GC systems use only 5 in. cages.<br />
<strong>Co</strong>ntact Phenomenex or your local Phenomenex distributor<br />
for additional GC products and applications.<br />
14 www.phenomenex.com international@phenomenex.com<br />
Phenomenex
Zebron <br />
GC <strong>Co</strong>lumns<br />
ZB-5HT Inferno <br />
• First non-metal columns stable to 430 °C<br />
• Robust column for high temperature analysis, such as<br />
biodiesel, long-chain hydrocarbons, polymers, and high<br />
molecular weight compounds<br />
• Longer lifetime with rugged high temperature, polyimide<br />
coated, fused silica tubing<br />
• Low activity, provides good peak shape for acidic and<br />
basic samples<br />
• Individually tested for low bleed, MS certified<br />
• Temperature Limits: -60 to 400/430 °C (Isothermal/TPGC)*<br />
<strong>Co</strong>lumn Profile<br />
Low<br />
Polarity<br />
Bleed<br />
Temperature Limits<br />
Stability<br />
Applications<br />
8<br />
• High Boiling Petroleum <strong>Products</strong><br />
• Triglycerides<br />
• Simulated Distillation Methods<br />
• Diesel Fuel<br />
• Long-chained Hydrocarbons<br />
• Motor Oils<br />
• Polymers/Plastics<br />
• Surfactants<br />
• High Molecular Weight Waxes<br />
High<br />
Alternative to Any 5 %-Phenyl-95 % Dimethylpolysiloxane High<br />
Temperature Phase:<br />
• DB-5ht • VF-5ht • HT-5 • Stx-5HT • XTI-5HT<br />
8.5<br />
Zebron Inferno <strong>Co</strong>lumns Win In The Lifetime Test<br />
pA<br />
Lower Bleed!*<br />
25<br />
23<br />
21<br />
19<br />
17<br />
15<br />
13<br />
11<br />
9<br />
Zebron ZB-5HT Inferno<br />
†<br />
Agilent ® J&W ® DB-5ht<br />
Retention of Pentadecane at 120 °C (min)<br />
8<br />
7.5<br />
7<br />
6.5<br />
<strong>Co</strong>mparison of retention of Pentadecane between the Zebron ZB-5HT<br />
Inferno column versus a traditional 5 %-Phenyl - 95 %-dimethylpolysiloxane<br />
column. Note that the 5 %-Phenyl column died around 40 hours<br />
at 400 °C whereas the Zebron ZB-5HT Inferno column maintained great<br />
retention of Pentadecane over 100 hours.<br />
Zebron ZB-5HT Inferno<br />
†<br />
Agilent ® J&W ® DB-5ht<br />
†<br />
Varian ® VF-5ht<br />
7<br />
5<br />
0 5 10 15 20 25 30 35 min<br />
<strong>Co</strong>nditions for all columns**:<br />
Dimensions: 30 meter x 0.25 mm x 0.10 μm<br />
Injection: Null Injection @ 250 °C<br />
Carrier Gas: Hydrogen @ 11 psi (<strong>Co</strong>nstant Pressure)<br />
Oven Program: 120 °C for 3 min to 320 °C @ 30 °C/min (hold 5 min) to<br />
340 °C @ 30 °C/min (hold 5 min) to 360 °C @ 30 °C/min<br />
(hold 5 min) to 380 °C @ 30 °C/min (hold 5 min) to 400 °C<br />
@ 30 °C/min (hold 5 min)<br />
Detector: FID @ 405 °C<br />
How does the lifetime test work?<br />
Hydrocarbons are a good way to measure the stability and<br />
lifetime of a non-polar column. Because its interaction with the<br />
phase is mostly based on London Dispersion forces, any change<br />
in retention time is correlated with phase loss. This will result in<br />
increased bleed and poor reproducibility.<br />
In the lifetime study above, the Zebron ZB-5HT Inferno column<br />
has twice the lifetime as the two comparative columns. For the<br />
test, all columns were held at 400 °C for 2 hours and then the<br />
oven was lowered to 120 °C for Pentadecane analysis. The Varian<br />
® HT column broke just after 40 hours at 400 °C. The Agilent ®<br />
J&W ® DB-5ht column had the same retention for Pentadecane at<br />
40 hours as the ZB-5HT at 100 hours.<br />
6<br />
0 20 40 60 80 100 120<br />
Hours at 400 ˚C<br />
<strong>Co</strong>nditions for all columns**:<br />
Dimensions: 30 meter x 0.25 mm x 0.10 μm<br />
Injection: 1.0 μL of test mix AG0-7578<br />
Carrier Gas: Helium @ 1.9 mL/min (constant flow)<br />
Oven Program: 120 °C Isothermal<br />
Detector: Flame Ionization Detector (FID) @ 400 °C<br />
Sample: Pentadecane<br />
Ordering Information<br />
Zebron ZB-5HT Inferno GC <strong>Co</strong>lumns<br />
ID(mm) df(µm) Temp. Limits °C Part No.<br />
15-Meter<br />
0.25 0.10 -60 to 400/430 7EG-G015-02<br />
0.25 0.25 -60 to 400/430 7EG-G015-11<br />
0.32 0.10 -60 to 400/430 7EM-G015-02<br />
0.32 0.25 -60 to 400/430 7EM-G015-11<br />
0.53 0.15 -60 to 400 7EK-G015-05<br />
15-Meter with 2-Meter Spliced Guard (0.53 mm ID)<br />
0.32 0.10 -60 to 400/430 7EM-G015-02-GST<br />
20-Meter<br />
0.18 0.18 -60 to 400/430 7FD-G015-08<br />
30-Meter<br />
0.25 0.10 -60 to 400/430 7HG-G015-02<br />
0.25 0.25 -60 to 400/430 7HG-G015-11<br />
0.32 0.10 -60 to 400/430 7HM-G015-02<br />
0.32 0.25 -60 to 400/430 7HM-G015-11<br />
0.53 0.15 -60 to 400 7HK-G015-05<br />
Note: If you need a 5 in. cage, simply add a (-B) after the part number, e.g., 7HG-G015-11-B. Some<br />
exceptions may apply. Agilent 6850 and some SRI and process GC systems use only 5 in. cages.<br />
*The shaded area depicts the bleed criteria for MS certified columns on a MS detector. MS<br />
bleed certification values are typically read at 320 ºC. This demonstrates the low bleed<br />
capabilities of the ZB-5HT. It meets MS certification limits even at 360 ºC!<br />
**All columns used for above tests were new/never used, prior to this testing and purchased either<br />
directly from the original manufacturer or through an authorized distributor. All testing was carefully<br />
controlled to ensure conditions were similar for all columns involved. The comparative data may not<br />
be representative of every application.<br />
*0.53 mm ID columns are rated to 400 ˚C max operational<br />
temperature.<br />
†<br />
Agilent and J&W are registered trademarks of Agilent Technologies, Inc. Varian is a registered<br />
trademark under license to Varian, Inc.<br />
Phenomenex international@phenomenex.com www.phenomenex.com<br />
15
Zebron <br />
GC <strong>Co</strong>lumns<br />
ZB-624<br />
• Widely used phase to separate volatile organic flavor<br />
and fragrance additives and residual solvents in industrial<br />
or pharmaceutical products<br />
• Popular choice for residual solvent testing<br />
• Excellent for US EPA Methods 501.3, 502.2, 503.1, 524.2,<br />
601, 602, 624, 8010, 8015, 8020, 8021, 8240, 8260<br />
• Specifically designed for the separation of volatile organic<br />
compounds (VOCs)<br />
• Increased temperature limit speeds run times and<br />
re-equilibration<br />
• Equivalent to USP Phase G43<br />
• Temperature Limits: -20 to 260 °C<br />
<strong>Co</strong>lumn Profile<br />
Low<br />
Polarity<br />
Bleed<br />
Temperature Limits<br />
Stability<br />
Applications<br />
13<br />
• Volatile Organic <strong>Co</strong>mpounds (VOCs)<br />
• Residual Solvents<br />
• EPA Methods 501.3, 502.2, 503.1, 524.2, 601, 602, 624, 8010, 8015, 8020, 8021,<br />
8240, 8260<br />
• Pharmaceuticals<br />
High<br />
Alternative to Any 6 %-Cyanopropylphenyl-<br />
94 %-Dimethylpolysiloxane Phase:<br />
• DB-624<br />
• AT-624<br />
• DB-VRX<br />
• Rtx-1301<br />
• CP-1301<br />
• Rtx-624<br />
• BP624<br />
• 007-502<br />
• HP-VOC<br />
• 007-624<br />
• DB-1301<br />
• SPB-1301<br />
• CP-Select 624 CB<br />
• SPB-624<br />
• Rtx-VMS<br />
USP : Residual Solvents<br />
Procedure A - Class 1<br />
1<br />
4 6 8 10 12 min<br />
<strong>Co</strong>lumn: Zebron ZB-624<br />
Dimensions: 30 meter x 0.32 mm x 1.80 µm<br />
Part No.: 7HM-G005-31<br />
Injection: Split 5:1 @ 140 °C, 1 mL<br />
Carrier Gas: Helium @ 35 cm/sec (constant flow)<br />
Oven Program: 40 ˚C for 20 min to 240 ˚C @ 10 ˚C/min for 20 min<br />
Detector: FID @ 250 °C<br />
Sample: 1. 1,1-Dichloroethene<br />
2. 1,1,1-Trichloroethane<br />
3. Carbon tetrachloride<br />
4. Benzene<br />
5. 1,2-Dichloroethane<br />
2<br />
3<br />
4<br />
5<br />
App ID 16348<br />
Ordering Information<br />
Zebron ZB-624 GC <strong>Co</strong>lumns<br />
ID(mm) df(µm) Temp. Limits °C Part No.<br />
20-Meter<br />
0.18 1.00 -20 to 260 7FD-G005-22<br />
30-Meter<br />
0.25 1.40 -20 to 260 7HG-G005-27<br />
0.32 1.80 -20 to 260 7HM-G005-31<br />
0.53 3.00 -20 to 260 7HK-G005-36<br />
60-Meter<br />
0.25 1.40 -20 to 260 7KG-G005-27<br />
0.32 1.80 -20 to 260 7KM-G005-31<br />
0.53 3.00 -20 to 260 7KK-G005-36<br />
75-Meter<br />
0.53 3.00 -20 to 260 7LK-G005-36<br />
105-Meter<br />
0.53 3.00 -20 to 260 7NK-G005-36<br />
Note: If you need a 5 in. cage, simply add a (-B) after the part number, e.g., 7HG-G005-11-B. Some<br />
exceptions may apply. Agilent 6850 and some SRI and process GC systems use only 5 in. cages.<br />
<strong>Co</strong>ntact Phenomenex or your local Phenomenex distributor<br />
for additional GC products and applications.<br />
16 www.phenomenex.com international@phenomenex.com<br />
Phenomenex
Zebron <br />
GC <strong>Co</strong>lumns<br />
ZB-WAXp l u s <br />
• 100 % aqueous stable, excellent for aqueous samples<br />
• Extremely inert for acidic compounds<br />
<strong>Co</strong>lumn Profile<br />
Low<br />
High<br />
• Enhanced selectivity for low boiling solvents<br />
Polarity<br />
• High retention of alcohols and chlorinated solvents<br />
Bleed<br />
• Increased efficiency at 20 °C<br />
• Bonded and solvent rinsible<br />
Temperature Limits<br />
Stability<br />
• Equivalent to USP Phase G16<br />
• Temperature Limits: 20 to 250/260 °C (Isothermal/TPGC)*<br />
Applications<br />
Alternative to Any Polyethylene Glycol Phase:<br />
• DB-WAX<br />
• Supelcowax-10<br />
• PEG 20M<br />
• AT-WAX<br />
• HP-20M<br />
• CP-WAX 52 CB<br />
• Stabilwax<br />
• AT-AquaWax<br />
• Carbowax 20M<br />
• Permabond CW 20M<br />
• CAM<br />
• BP20<br />
• Alcoholic Beverages<br />
• Alcohols<br />
• OVIs<br />
• Aldehydes<br />
• Aromatics<br />
• Acids (free)<br />
• Essential oils<br />
• Flavors / Fragrances<br />
• Styrene<br />
• Glycols<br />
• Pharmaceuticals<br />
• Solvents<br />
• Xylene Isomers<br />
Enhanced Aqueous Stability<br />
Wax columns provide optimal selectivity for many aqueous<br />
soluble compounds such as those found in alcoholic beverages<br />
or glycol samples. Historically, Polyethylene Glycol (PEG) phases<br />
have been unstable with aqueous samples resulting in poor reproducibility<br />
and decreased lifetime. The ZB-WAXp l u s bonding<br />
procedure results in exceptional stability to repeated injections<br />
of aqueous matrices.<br />
Water Reproducibility of ZB-WAXPLUS<br />
pA<br />
90<br />
80<br />
70<br />
60<br />
50<br />
40<br />
30<br />
20<br />
10<br />
0<br />
0 2<br />
1<br />
2 3<br />
4<br />
5<br />
4 6 8 10 12 14<br />
<strong>Co</strong>lumn: Zebron ZB-WAXPLUS<br />
Dimensions: 30 meter x 0.25 mm x 0.25 µm<br />
Part No.: 7HG-G013-11<br />
Injection: Split 30:1 @ 140 °C, 0.2 µL<br />
Carrier Gas: Helium @ 1.4 mL/min (constant flow)<br />
Oven Program: 35 ˚C for 5 min to 85 ˚C @ 10 ˚C/min to 200 ˚C @<br />
25 ˚C/min for 1 min<br />
Detector: FID @ 200 °C<br />
Sample: 1. Acetaldehyde<br />
2. Ethyl Acetate<br />
3. Methanol<br />
4. Ethanol<br />
5. Propanol<br />
6. Isobutanol<br />
7. 2-Methylbutanol<br />
8. 3-Methylbutanol<br />
6<br />
7,8<br />
Scottish Single<br />
Malt Whiskey<br />
60%<br />
Aqueous!<br />
min<br />
App ID 15817<br />
Ordering Information<br />
Zebron ZB-WAXPLUS GC <strong>Co</strong>lumns<br />
ID(mm) df(µm) Temp. Limits °C Part No.<br />
10-Meter<br />
0.10 0.10 20 to 250/260 7CB-G013-02<br />
15-Meter<br />
0.25 0.25 20 to 250/260 7EG-G013-11<br />
20-Meter<br />
0.18 0.18 20 to 250/260 7FD-G013-08<br />
30-Meter<br />
0.25 0.25 20 to 250/260 7HG-G013-11<br />
0.32 0.25 20 to 250/260 7HM-G013-11<br />
0.32 0.50 20 to 250/260 7HM-G013-17<br />
0.53 1.00 20 to 230/240 7HK-G013-22<br />
60-Meter<br />
0.25 0.25 20 to 250/260 7KG-G013-11<br />
0.32 0.50 20 to 250/260 7KM-G013-17<br />
0.53 1.00 20 to 230/240 7KK-G013-22<br />
Note: If you need a 5 in. cage, simply add a (-B) after the part number, e.g., 7HG-G013-11-B. Some<br />
exceptions may apply. Agilent 6850 and some SRI and process GC systems use only 5 in. cages.<br />
*Thicker films (≥1.0 µm df) are rated to 230/240 ˚C<br />
(Isothermal/TPGC).<br />
<strong>Co</strong>ntact Phenomenex or your local Phenomenex distributor for<br />
additional GC products and applications.<br />
Phenomenex international@phenomenex.com www.phenomenex.com<br />
17
Zebron <br />
GC <strong>Co</strong>lumns<br />
~exclusive~<br />
ZB-MultiResidue <br />
1 and 2<br />
<strong>Co</strong>lumn Profile<br />
• Proprietary phase specially designed for the separation of<br />
all types of pesticides, herbicides, and insecticides<br />
• Low activity, decreased breakdown of sensitive pesticides<br />
such as DDT<br />
• Provides robust column performance for high temperature<br />
bake outs<br />
• MS Certified phases provide low bleed performance for<br />
pesticide confirmation by MS<br />
• Temperature Limits: -60 to 320/340 °C<br />
(Isothermal/TPGC)<br />
Low<br />
Polarity MR-1<br />
Polarity MR-2<br />
Bleed<br />
Temperature Limits<br />
Stability<br />
Applications<br />
• Organochlorine Pesticides<br />
• Insecticides<br />
• Organophosphorous Pesticides<br />
• Aroclors/PCBs<br />
11<br />
15<br />
• Nitrogen <strong>Co</strong>ntaining Pesticides<br />
• Haloacetic Acids<br />
• Herbicides<br />
• Multi-pesticide Residue Methods<br />
High<br />
Similar* to:<br />
• Rtx-CLPesticides<br />
• Stx-CLPesticides<br />
• Rtx-CLPesticides2<br />
• Stx-CLPesticides2<br />
*not exact equivalent, selectivity might be different<br />
EPA Methods 508 and 8081A<br />
A<br />
1<br />
2<br />
3<br />
4 5 6<br />
8,7<br />
9<br />
10<br />
11<br />
17, 16<br />
13<br />
15<br />
14<br />
18<br />
12<br />
21,22<br />
20<br />
Baseline Resolution<br />
of EPA Method 8081<br />
19,23<br />
24<br />
25<br />
30,32 35<br />
39<br />
28 29 31<br />
36<br />
34 37<br />
33 38<br />
26<br />
27<br />
MR-2<br />
40 41<br />
App ID 16280<br />
B<br />
1<br />
2<br />
3<br />
4 5 6<br />
7<br />
8<br />
9<br />
14<br />
13 15<br />
17<br />
16<br />
10<br />
11<br />
12<br />
19,20<br />
18<br />
21,22<br />
23 24 25<br />
35 39<br />
2829 3031 36<br />
34<br />
33 3738<br />
32<br />
26 27<br />
MR-1<br />
4041<br />
App ID 16279<br />
2 4 6 8 10 12 14 16 min<br />
<strong>Co</strong>lumn: A) Zebron MultiResidue-2<br />
B) Zebron MultiResidue-1<br />
Dimensions: A) 30 meter x 0.32 mm x 0.25 µm<br />
B) 30 meter x 0.32 mm x 0.50 µm<br />
Part No.: A) 7HM-G017-11<br />
B) 7HM-G016-17<br />
Injection: On-<strong>Co</strong>lumn @ 123 °C, 1 µL<br />
Carrier Gas: Helium @ 1.2 mL/min (constant flow)<br />
Oven Program: 120 ˚C for 0.5 min to 210 ˚C @ 30 ˚C/min to<br />
300 ˚C @ 6 ˚C/min for 2 min<br />
Detector: ECD @ 340 °C<br />
Sample: All analytes are 50 ppb in isooctane<br />
1. DBCP<br />
2. Hexachlorocyclopentadiene<br />
3. Etridiazole<br />
4. Chloroneb<br />
5. Propachlor<br />
6. Diallate<br />
7. a-BHC<br />
8. Hexachlorobenzene<br />
9. g-BHC<br />
10. b-BHC<br />
11. Dichlone<br />
12. Alachlor<br />
13. d-BHC<br />
14. Chlorothalonil<br />
15. Heptachlor<br />
16. DCPA (Dacthal)<br />
17. Aldrin<br />
18. Heptachlor epoxide<br />
19. Captan<br />
20. trans-Chlordane (gamma)<br />
21. cis-Chlordane (alpha)<br />
22. trans-Nonachlor<br />
23. Endosulfan I<br />
24. DDE<br />
25. Dieldrin<br />
26. Chloropropylate<br />
27. Chlorobenzilate<br />
28. Endrin<br />
29. Nitrofen<br />
30. DDD<br />
31. Endosulfan II<br />
32. Kepone<br />
33. Trithion<br />
34. Endrin aldehyde<br />
35. DDT<br />
36. Endosulfan sulfate<br />
37. Captafol<br />
38. Methoxychlor<br />
39. Endrin ketone<br />
40. Permethrin<br />
41. Permethrin isomer<br />
2 4 6 8 10 12 14 16 18 min<br />
Ideal for Dual <strong>Co</strong>lumn Analysis<br />
Injector<br />
5 m<br />
Z-Guard<br />
Zebron<br />
MR-1<br />
Zebron<br />
MR-2<br />
Y-Splitter<br />
ECD Detector<br />
ECD Detector<br />
<strong>Co</strong>ntact Phenomenex or your local Phenomenex distributor<br />
for additional GC products and applications.<br />
18 www.phenomenex.com international@phenomenex.com<br />
Phenomenex
Zebron <br />
GC <strong>Co</strong>lumns<br />
ZB-MultiResidue <br />
1 and 2 (cont’d)<br />
Ordering Information<br />
Zebron ZB-MultiResidue GC <strong>Co</strong>lumns (MR)-1<br />
ID(mm) df(µm) Temp. Limits °C Part No.<br />
30-Meter<br />
0.25 0.25 -60 to 320/340 7HG-G016-11<br />
0.32 0.50 -60 to 320/340 7HM-G016-17<br />
0.53 0.50 -60 to 320/340 7HK-G016-17<br />
Ordering Information<br />
Zebron ZB-MultiResidue GC <strong>Co</strong>lumns (MR)-2<br />
ID(mm) df(µm) Temp. Limits °C Part No.<br />
30-Meter<br />
0.25 0.20 -60 to 320/340 7HG-G017-10<br />
0.32 0.25 -60 to 320/340 7HM-G017-11<br />
0.53 0.50 -60 to 320/340 7HK-G017-17<br />
Note: If you need a 5 in. cage, simply add a (-B) after the part number, e.g., 7HG-G016-11-B or<br />
7HG-G017-11-B. Some exceptions may apply. Agilent 6850 and some SRI and process GC systems<br />
use only 5 in. cages.<br />
ZB-MultiResidue <strong>Co</strong>lumn Kits<br />
Ordering Information<br />
0.25 mm ID<br />
(kit consists of products below) Part No.: KG0-8237<br />
Description Dimension Part No.<br />
MultiResidue MR-1 <strong>Co</strong>lumn 30 meter x 0.25 mm x 0.25 µm df 7HG-G016-11<br />
MultiResidue MR-2 <strong>Co</strong>lumn 30 meter x 0.25 mm x 0.20 µm df 7HG-G017-10<br />
Z-Guard 5 meter x 0.25 mm 7AG-G000-00-GZ0<br />
Universal Capillary <strong>Co</strong>lumn Y-connector, Borosilicate<br />
AG0-4717<br />
0.32 mm ID<br />
(kit consists of products below) Part No.: KG0-8238<br />
Description Dimension Part No.<br />
MultiResidue MR-1 <strong>Co</strong>lumn 30 meter x 0.32 mm x 0.50 µm df 7HM-G016-17<br />
MultiResidue MR-2 <strong>Co</strong>lumn 30 meter x 0.32 mm x 0.25 µm df 7HM-G017-11<br />
Z-Guard 5 meter x 0.32 mm 7AM-G000-00-GZ0<br />
Universal Capillary <strong>Co</strong>lumn Y-connector, Borosilicate<br />
AG0-4717<br />
0.53 mm ID<br />
(kit consists of products below) Part No.: KG0-8239<br />
Description Dimension Part No.<br />
MultiResidue MR-1 <strong>Co</strong>lumn 30 meter x 0.53 mm x 0.50 µm df 7HK-G016-17<br />
MultiResidue MR-2 <strong>Co</strong>lumn 30 meter x 0.53 mm x 0.50 µm df 7HK-G017-17<br />
Z-Guard 5 meter x 0.53 mm 7AK-G000-00-GZ0<br />
Universal Capillary <strong>Co</strong>lumn Y-connector, Borosilicate<br />
AG0-4717<br />
<strong>Co</strong>ntact Phenomenex or your local Phenomenex distributor<br />
for additional GC products and applications.<br />
Phenomenex international@phenomenex.com www.phenomenex.com<br />
19
Zebron <br />
GC <strong>Co</strong>lumns<br />
~exclusive~<br />
Zebron ZB-Drug-1<br />
• Optimized phase for the separation of drugs of abuse<br />
• Provides fast analysis with great peak shape<br />
• Improves resolution of target analytes from matrix<br />
interferences<br />
• Specially deactivated to improve quantitation for drug<br />
compounds<br />
• Temperature Limits: 40 to 320/340 °C<br />
Opiates on a ZB-5ms<br />
16733<br />
Applications<br />
• Drugs of Abuse<br />
Opiates on a ZB-Drug-1<br />
2009 R&D 100<br />
Award Recipient<br />
3,4<br />
17806<br />
1,2<br />
Unique<br />
Selectivity for Drugs<br />
3,4<br />
2<br />
1<br />
App ID 16733<br />
App ID 17806<br />
4.7<br />
4.8 4.9 5 5.1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9 6 min<br />
4.0<br />
4.1 4.2 4.3 4.4 4.5 4.6 4.7 4.8 min<br />
<strong>Co</strong>lumn: Zebron ZB-5ms<br />
Dimensions: 10 meter x 0.18 mm x 0.18 µm<br />
Part No.: 7CD-G018-08<br />
Injection: Split 10:1 @ 240 °C, 1 µL<br />
Carrier Gas: Helium @ 1.2 mL/min (constant flow)<br />
Oven Program: 140 °C to 320 °C @ 20 °C for 1 min<br />
Detector: MSD @ 230 °C<br />
Sample: Analytes @ 10 pppm BSTFA/Pyridine<br />
1. <strong>Co</strong>deine-d6<br />
2. <strong>Co</strong>deine<br />
3. Morphine-d3<br />
4. Morphine<br />
<strong>Co</strong>lumn: Zebron ZB-Drug-1<br />
Dimensions: 10 meter x 0.18 mm x 0.18 µm<br />
Part No.: 7CD-G023-08<br />
Injection: Split 10:1 @ 280 °C, 1 µL<br />
Carrier Gas: Helium @ 55 cm/sec (constant flow)<br />
Oven Program: 180 °C to 340 °C @ 20 °C/min<br />
Detector: MSD @ 230 °C<br />
Sample: Analytes @ 10 pppm BSTFA/Pyridine<br />
1. <strong>Co</strong>deine-d6<br />
2. <strong>Co</strong>deine<br />
3. Morphine-d3<br />
4. Morphine<br />
17809<br />
Amphetamines<br />
2<br />
1<br />
3<br />
4<br />
5<br />
6<br />
8<br />
7<br />
9<br />
10<br />
App ID 17809<br />
Ordering Information<br />
Zebron ZB-Drug-1 GC <strong>Co</strong>lumns<br />
ID(mm) df(µm) Temp. Limits °C Part No.<br />
10-Meter<br />
0.18 0.18 40 to 320/340 7CD-G023-08<br />
15-Meter<br />
0.25 0.25 40 to 320/340 7EG-G023-11<br />
30-Meter<br />
0.25 0.25 40 to 320/340 7HG-G023-11<br />
Note: If you need a 5 in. cage, simply add a (-B) after the part number, e.g., 7HG-G023-11-B. Some<br />
exceptions may apply. Agilent 6850 and some SRI and process GC systems use only 5 in. cages.<br />
3<br />
4 5 6 min<br />
<strong>Co</strong>lumn: Zebron ZB-Drug-1<br />
Dimensions: 10 meter x 0.18 mm x 0.18 µm<br />
Part No.: 7CD-G023-08<br />
Injection: Split 10:1 @ 280 °C, 0.1 µL<br />
Carrier Gas: Helium @ 55 cm/sec (constant flow)<br />
Oven Program: 70 °C to 130 °C @ 20 °C/min to 270 ºC @ 30 ºC<br />
Detector: MSD @ 230 °C<br />
Sample: Analytes are 40 ppm derivatized with HFBA<br />
1. Amphetamine-d11<br />
2. Amphetamine<br />
3. Methamphetamine-d14<br />
4. Methamphetamine<br />
5. MDA-d5<br />
6. MDA<br />
7. MDMA-d5<br />
8. MDMA<br />
9. MDEA-d5<br />
10. MDEA<br />
<strong>Co</strong>ntact Phenomenex or your local Phenomenex distributor<br />
for additional GC products and applications.<br />
20 www.phenomenex.com international@phenomenex.com<br />
Phenomenex
Zebron <br />
GC <strong>Co</strong>lumns<br />
n e<br />
w<br />
ZB-1XT SimDist Metal<br />
<br />
• New Glass Infusion technology provides higher<br />
efficiency and greater column-to-column reproducibility<br />
• Guaranteed high quality - every column is individually<br />
tested<br />
• Up to 70% more efficiency than other columns<br />
• Improved resolution of C50/C52<br />
• Increased accuracy for high temperature simulated<br />
distillation analysis<br />
• Temperature Limits: -60 to 450 °C<br />
(Isothermal/TPGC)*<br />
Alternative to:<br />
<br />
• Varian CP-SimDist UltiMetal<br />
®<br />
• Restek MXT ® -1HT SimDist<br />
19264<br />
®<br />
• Agilent J&W DB-HT SimDis<br />
<strong>Co</strong>lumn Profile<br />
Low<br />
Polarity<br />
Bleed<br />
Temperature Limits<br />
Stability<br />
Applications<br />
5<br />
• Crude Oil<br />
• Vacuum Distillates<br />
• Petroleum Distillates<br />
• Petroleum Fractions<br />
High<br />
• Gasoline Fractions<br />
• Simulated Distillations<br />
• ASTM Methods D2887, D2887X, D3710,<br />
D6352, D7169<br />
Hydrocarbons C7–C100+: ASTM Method D7169<br />
C8<br />
C7<br />
High Efficiency!<br />
C9<br />
C44<br />
C50<br />
Resolution: 4.81<br />
C52<br />
0<br />
10 20 30 40 min<br />
<strong>Co</strong>lumn: Zebron ZB-1XT SimDist<br />
Dimensions: 5 meter x 0.53 mm x 0.15 µm<br />
Part No.: 7AK-G026-05<br />
Injection: On-<strong>Co</strong>lumn @ 33 °C, 1 µL<br />
Carrier Gas: Helium @ 7 mL/min (constant flow)<br />
Oven Program: 30 °C to 450 °C @ 10 °C/min for 10 min<br />
Detector: FID @ 450 °C<br />
Sample: C7 to C44 hydrocarbons and POLYWAX ® 655<br />
Note: Sample in CS2. Chromatogram is baseline subtracted.<br />
C60<br />
C70<br />
C80<br />
C90<br />
C100<br />
App ID 19264<br />
Ordering Information<br />
Zebron ZB-1XT SimDist Metal<br />
ID(mm) df(µm) Temp. Limits °C Part No.<br />
5-Meter<br />
0.53 0.09 -60 to 450 7AK-G026-55<br />
0.53 0.15 -60 to 450 7AK-G026-05<br />
10-Meter<br />
0.53 0.15 -60 to 450 7CK-G026-05<br />
0.53 0.88 -60 to 400 7CK-G026-49<br />
0.53 2.65 -60 to 400 7CK-G026-35<br />
If you need a 5 in. cage, simply add a (-B) after the part number, e.g., 7CK-G026-05-B. Some<br />
exceptions may apply. Agilent 6850 and some SRI and process GC systems use only 5 in. cages.<br />
*Thicker film (2.65 µm df) is rated to 400 ˚C<br />
(Isothermal/TPGC).<br />
<strong>Co</strong>ntact Phenomenex or your local Phenomenex distributor for<br />
additional GC products and applications.<br />
Phenomenex international@phenomenex.com www.phenomenex.com<br />
21
HPLC <strong>Co</strong>lumns<br />
SecurityGuard <br />
HPLC <strong>Co</strong>lumn<br />
Protection Kit<br />
Chiral HPLC Analysis<br />
Lux ®<br />
Kinetex <br />
Ultra High Performance<br />
on ANY LC system<br />
GPC<br />
Phenogel <br />
Protein/Peptide Analysis &<br />
Purification<br />
Jupiter ® 300 RP-HPLC<br />
Jupiter Proteo RP-HPLC<br />
BioSep GFC/SEC<br />
Carbohydrate/Organic<br />
Acid Analysis<br />
Rezex <br />
HPLC<br />
<strong>Co</strong>lumn Selection<br />
p. 23<br />
Lux<br />
HPLC Chiral Analysis<br />
p. 42-44<br />
SecurityGuard<br />
HPLC <strong>Co</strong>lumn Protection<br />
p. 24-25<br />
BioSep<br />
Size Exclusion (GFC) for<br />
Proteins/Peptides<br />
p. 45-47<br />
Kinetex<br />
Ultra High Performance<br />
Gemini ®<br />
pH Stable 1-12<br />
Synergi <br />
Full Range Selectivity<br />
p. 26-35<br />
p. 36-37<br />
p. 38-39<br />
Jupiter<br />
RP-HPLC for<br />
Protein/Peptide Analysis<br />
Rezex<br />
Carbohydrate and<br />
Organic Acid Analysis<br />
p. 48-51<br />
p. 52-54<br />
Luna ®<br />
One of the World’s<br />
Leading HPLC <strong>Co</strong>lumns<br />
p. 40-41<br />
Phenogel<br />
Size Exclusion (GPC)<br />
AXIA <br />
Preparative HPLC<br />
p. 55-56<br />
p. 57-60<br />
22 www.phenomenex.com international@phenomenex.com<br />
Phenomenex
HPLC <strong>Co</strong>lumn Selection<br />
Sample<br />
MW<br />
Sample<br />
Solubility<br />
Separation<br />
Mode<br />
Our Recommended<br />
<strong>Co</strong>lumn<br />
Page<br />
Hexane-<br />
Soluble<br />
Normal Phase<br />
Adsorption<br />
Normal Phase<br />
Bonded<br />
Kinetex HILIC 26<br />
Luna Silica(2) 40<br />
Onyx Silica *<br />
Luna CN, NH 2<br />
, HILIC 40<br />
Organic-<br />
Soluble<br />
Methanol<br />
Methanol/H 2<br />
0<br />
Soluble<br />
Reversed Phase<br />
Bonded<br />
Chiral<br />
Kinetex C18, XB-C18, C8 26<br />
Synergi Max-RP, Fusion-RP 38<br />
Luna C8(2), C18(2) 40<br />
Gemini C18, Gemini-NX C18 36<br />
Lux 42<br />
THF-Soluble<br />
Gel Permeation<br />
GPC<br />
Phenogel 50 Å, 100 Å 55<br />
Shodex GPC *<br />
MW5000<br />
Gel Filtration<br />
Aqueous<br />
GFC/SEC<br />
pH 2-7.5<br />
pH > 7.5<br />
BioSep-SEC-S Series 45<br />
Shodex OHpak *<br />
PolySep-GFC-P *<br />
Aqueous-<br />
Soluble<br />
Ion-Exchange<br />
Cation-<br />
Exchange<br />
Anion-<br />
Exchange<br />
pH 2-10<br />
Shodex IEC CM-825 *<br />
Shodex IEC DEAE *<br />
Clarity Oligo-WAX *<br />
Jupiter 300 C4, C5, C18 48<br />
Reversed Phase<br />
pH > 10<br />
PolymerX RP-1 *<br />
Hamilton PRP-3 *<br />
Hydrophobic<br />
Interaction (HIC)<br />
Shodex HIC *<br />
Affinity/Bioaffinity<br />
Shodex AFpak *<br />
*Visit www.phenomenex.com for products not featured in this guide.<br />
Phenomenex international@phenomenex.com www.phenomenex.com<br />
23
HPLC <strong>Co</strong>lumn Protection<br />
SecurityGuard <br />
• Protect HPLC columns and extend lifetime<br />
• Virtually no change in chromatography<br />
• Available in analytical, semi-prep, and preparative sizes<br />
• Simple to use<br />
Did you know a common cause of high backpressure, split<br />
peaks, broad peaks, baseline noise, baseline drift and loss of<br />
resolution is contaminants? The fact is all mobile phases contain<br />
some chemical contaminants or microparticulates, from the<br />
sample, solvent, or wear on the polymeric seals of the pump or<br />
injector. These contaminants can clog frits, irreversibly bind to an<br />
HPLC column, degrade performance, and even damage the flow<br />
cell. An easy solution, SecurityGuard is a universal HPLC guard<br />
cartridge system designed to effectively (and inexpensively),<br />
protect your valuable columns, from the damaging effects of<br />
chemical contaminants, without altering your chromatographic<br />
results.<br />
A Universal Guard Cartridge System<br />
How It Works*<br />
The SecurityGuard analytical cartridge holder (patented)<br />
directly finger-tightens into virtually any manufacturer’s column.<br />
<strong>Co</strong>ntaminants are retained by an inexpensive, 4 mm, disposable<br />
cartridge instead of fouling your expensive analytical column.<br />
Cutaway view showing<br />
Cartridge - can be easily<br />
inspected for contaminants<br />
Fingertight connection to<br />
virtually any female inverted<br />
endfitting worldwide<br />
Universal Fingertight connection to HPLC<br />
column - no wrenches required<br />
*<br />
contaminants<br />
compounds of interest<br />
From injector<br />
To detector<br />
<strong>Co</strong>mpare, Virtually No Change<br />
mAU<br />
10<br />
HPLC column<br />
0<br />
-10<br />
-20<br />
-30<br />
-40<br />
mAU<br />
10<br />
0<br />
-10<br />
-20<br />
-30<br />
-40<br />
0 5 10 15 20<br />
Without SecurityGuard<br />
min<br />
vs.<br />
App ID 10731<br />
With SecurityGuard<br />
App ID 10731<br />
<strong>Co</strong>lumns: As specified within App ID<br />
Dimensions: 150 x 4.6 mm<br />
Guard Cartridge: SecurityGuard C18 (ODS) 4 x 3.0 mm ID<br />
Mobile Phase: 0.1 M Ammonium acetate/Acetonitrile/Methanol (35:25:40)<br />
Flow Rate: 0.6 mL/min<br />
Detection: UV @ 245 nm<br />
Sample: 1. Clonazepam<br />
2. Oxazepam<br />
3. Diazepam<br />
4. Bromazepam<br />
5. Temazepam<br />
6. Medazepam<br />
* Feature applies to analytical-sized guard system only, and does not<br />
apply to SemiPrep or PREP guard cartridges.<br />
0 5 10 15 20<br />
min<br />
SecurityGuard is a trademark of Phenomenex.<br />
24 www.phenomenex.com international@phenomenex.com<br />
Phenomenex
HPLC <strong>Co</strong>lumn Protection<br />
SecurityGuard<br />
Cartridges and Holders<br />
Step 1: Choose column ID<br />
Step 2: Match column phase<br />
Choose your HPLC <strong>Co</strong>lumn Internal Diameter, ID (mm):<br />
2.0 - 3.0 3.2 - 8.0 9.0 - 16.0 18.0 - 29.0 30.0 - 49.0<br />
Analytical SemiPrep PREP<br />
Use Cartridges (mm):<br />
4.0 x 2.0 4.0 x 3.0 10 x 10.0 15 x 21.2 15 x 30.0<br />
Ordering Information<br />
Material Description pH Stability<br />
Cartridges for General Purpose/Pharmaceutical /10pk /10pk /3pk ea ea<br />
C18 (ODS, Octadecyl) 1.5 - 10 AJ0-4286 AJ0-4287 AJ0-7221 AJ0-7839 AJ0-8301<br />
C12 (Dodecyl) 1.5 - 10 AJ0-6073 AJ0-6074 AJ0-7275 AJ0-7842 AJ0-8304<br />
C8 (MOS, Octyl) 1.5 - 10 AJ0-4289 AJ0-4290 AJ0-7222 AJ0-7840 AJ0-8302<br />
C5 (Pentyl) 1.5 - 10 AJ0-4292 AJ0-4293 AJ0-7372 — —<br />
C1 (TMS) 2 - 9 AJ0-4298 AJ0-4299 AJ0-7373 — —<br />
Silica — — AJ0-4347 AJ0-4348 AJ0-7223 AJ0-7229 AJ0-8312<br />
HILIC HILIC 1.5 - 8 AJ0-8328 AJ0-8329 — — —<br />
NH 2<br />
(Amino, Aminopropyl) 1.5 - 11 AJ0-4301 AJ0-4302 AJ0-7364 AJ0-8162 AJ0-8309<br />
CN (Cyano, Cyanopropyl) 2 - 7.5 AJ0-4304 AJ0-4305 AJ0-7313 AJ0-8220 AJ0-8311<br />
Phenyl (Phenylhexyl) 1.5 - 10 AJ0-4350 AJ0-4351 AJ0-7314 AJ0-7841 AJ0-8303<br />
PFP(2) Pentafluorophenyl 1.5 - 8 AJ0-8326 AJ0-8327 AJ0-8376 AJ0-8377 AJ0-8378<br />
SCX (SA, Strong Cation Exchanger) 2.5 - 7.5 AJ0-4307 AJ0-4308 AJ0-7369 AJ0-8595 AJ0-8596<br />
SAX (SB, Strong Anion Exchanger) 2.5 - 7.5 AJ0-4310 AJ0-4311 AJ0-7370 — —<br />
RP-1 (Reversed Phase - Polymer) 0 - 14 AJ0-5808 AJ0-5809 AJ0-7368 AJ0-8358 —<br />
Polar-RP (Ether-linked Phenyl) 1.5 - 7 AJ0-6075 AJ0-6076 AJ0-7276 AJ0-7845 AJ0-8307<br />
Fusion-RP (C18 Polar Embedded) 1.5 - 10 AJ0-7556 AJ0-7557 AJ0-7558 AJ0-7844 AJ0-8306<br />
AQ C18 (Polar Endcapped C18) 1.5 - 7.5 AJ0-7510 AJ0-7511 AJ0-7512 AJ0-7843 AJ0-8305<br />
Gemini-NX (C18 Twin-NX Technology) 1 - 12 AJ0-8367 AJ0-8368 AJ0-8369 AJ0-8370 AJ0-8371<br />
Gemini C18 (C18 Twin Technology) 1 - 12 AJ0-7596 AJ0-7597 AJ0-7598 AJ0-7846 AJ0-8308<br />
Gemini C6-Phenyl (C6-Phenyl Twin Technology) 1 - 12 AJ0-7914 AJ0-7915 — — —<br />
Oligo-RP (C18 Twin Technology) 1 - 12 AJ0-8134 AJ0-8135 AJ0-8136 AJ0-8210 AJ0-8310<br />
Oligo-WAX (WA, Weak Anion Exchanger) 1.5 - 11 — AJ0-8324 AJ0-8325 AJ0-8639 AJ0-8420<br />
Cartridges for Protein and Polypeptide Reversed Phase /10pk /10pk /3pk ea ea<br />
For use with silica columns for separation of proteins & peptides, such as Jupiter ® (Phenomenex); Vydac ® 218TP, 214TP (Alltech Associates, Inc.); Nucleosil ® 300 Å C18, C4;<br />
Hypersil ® 300 Å, and other widepore or 300 Å brands.<br />
Widepore C18 (ODS, Octadecyl) 1.5 - 10 AJ0-4320 AJ0-4321 AJ0-7224 AJ0-7230 AJ0-8313<br />
Widepore C5 (Pentyl) 1.5 - 10 AJ0-4326 AJ0-4327 AJ0-7371 — —<br />
Widepore C4 (Butyl) 1.5 - 10 AJ0-4329 AJ0-4330 AJ0-7225 AJ0-7231 AJ0-8314<br />
Cartridges for Silica GFC — /10pk /3pk ea —<br />
(Aqueous SEC) For use with silica GFC columns, such as BioSep (Phenomenex); ZORBAX ® GF-Series; Bio-Sil ® (Bio-Rad).<br />
GFC-2000 — 2 - 7.5 — AJ0-4487 AJ0-7365 AJ0-8588 —<br />
GFC-3000 — 2 - 7.5 — AJ0-4488 AJ0-7366 AJ0-8589 —<br />
GFC-4000 — 2 - 7.5 — AJ0-4489 AJ0-7367 AJ0-8590 —<br />
Cartridges for Chiral /10pk /10pk /3pk ea ea<br />
For use with chiral columns, such as Lux ® Cellulose-1, -2, -3, -4, & Amylose-2 (Phenomenex); CHIRALCEL ® OD-H ® , CHIRALCEL ® OJ-H ® & Chiralpak ® Ad ® -H (DAICEL Chemical<br />
Industries, <strong>Ltd</strong>.)<br />
Lux Cellulose-1 Cellulose tris (3, 5-dimethylphenylcarbamate)<br />
2 - 9 AJ0-8402 AJ0-8403 AJ0-8404 AJ0-8405 AJ0-8406<br />
Lux Cellulose-2 Cellulose tris (3-chloro-4- 2 - 9 AJ0-8398 AJ0-8366 AJ0-8399 AJ0-8400 AJ0-8401<br />
methylphenylcarbamate)<br />
Lux Cellulose-3 Cellulose tris (4-methylbenzoate) 2 - 9 AJ0-8621 AJ0-8622 AJ0-8623 AJ0-8624 AJ0-8625<br />
Lux Cellulose-4 Cellulose tris (4-chloro-3-methylphenylcarbamate)<br />
2 - 9 AJ0-8626 AJ0-8627 AJ0-8628 AJ0-8629 AJ0-8630<br />
Lux Amylose-2 Amylose tris (5-chloro-2-methylphenylcarbamate)<br />
2 - 9 AJ0-8471 AJ0-8470 AJ0-8472 AJ0-8473 AJ0-8474<br />
Cartridges for Carbohydrate/Organic Acid — /10pk — — —<br />
For organic acid and carbohydrate analysis, such as Rezex (Phenomenex); Aminex ® (Bio-Rad); Interaction; Sugar-Pak (Waters).<br />
Carbo-H + — 1 - 8 — AJ0-4490 — — —<br />
Carbo-Ag +* — Neutral — AJ0-4491 — — —<br />
Carbo-Pb +2 — Neutral — AJ0-4492 — — —<br />
Carbo-Ca +2 — Neutral — AJ0-4493 — — —<br />
Guard Cartridge Holders (one-time purchase only) /kit /holder /kit /kit<br />
KJ0-4282 AJ0-7220 AJ0-8223 AJ0-8277<br />
*For use with saccharide and oligosaccharide columns in Ag + form.<br />
Phenomenex international@phenomenex.com www.phenomenex.com<br />
25
Kinetex <br />
HPLC/UHPLC<br />
Ultra-High Performance<br />
n e<br />
w<br />
new<br />
new<br />
new<br />
new<br />
Ultra-High Performance on Any LC System<br />
• Achieve sub-2 µm performance within HPLC backpressure limitations<br />
• Substitute 3 µm and 5 µm columns for 2-3x higher efficiency<br />
• Obtain higher throughput without sacrificing resolution<br />
• Easy method transfer across LC system platforms<br />
• Reduce solvent consumption with faster analysis<br />
• Reach lower levels of detection and quantitation<br />
Material Characteristics*<br />
Total<br />
Particle<br />
Size<br />
(µm)<br />
Porous<br />
Shell<br />
(µm)<br />
Solid<br />
<strong>Co</strong>re<br />
(µm)<br />
Packing<br />
pH<br />
Material<br />
Stability<br />
Kinetex XB-C18 2.6 0.35 1.9 100 200 10 1.5 - 10**<br />
Pore<br />
Size<br />
(Å)<br />
Effective<br />
Surface<br />
Area<br />
(m 2 /g)<br />
Effective<br />
Carbon<br />
Load<br />
%<br />
Kinetex C18 2.6 0.35 1.9 100 200 12 1.5 - 10**<br />
Kinetex C8 2.6 0.35 1.9 100 200 8 1.5 - 8.0<br />
Kinetex PFP 2.6 0.35 1.9 100 200 9 1.5 - 8.0<br />
Kinetex HILIC 2.6 0.35 1.9 100 200 0 2.0 - 7.5<br />
Kinetex XB-C18 1.7 0.23 1.25 100 200 10 1.5 - 10**<br />
Kinetex C18 1.7 0.23 1.25 100 200 12 1.5 - 10**<br />
Kinetex C8 1.7 0.23 1.25 100 200 8 1.5 - 8.0<br />
Kinetex PFP 1.7 0.23 1.25 100 200 9 1.5 - 8.0<br />
Kinetex HILIC 1.7 0.23 1.25 100 200 0 2.0 - 7.5<br />
*For the evaluation of effective surface area and carbon load, please request technical note, TN-1064<br />
**<strong>Co</strong>lumns are pH stable from 1.5-10 under isocratic conditions. <strong>Co</strong>lumns are pH stable 2-8 under gradient conditions.<br />
2.1 mm ID Kinetex columns are pressure stable up to 1000 bar.<br />
Pressure<br />
Stability<br />
1000/600<br />
bar<br />
1000 bar<br />
2010 R&D 100<br />
Award Recipient<br />
Innovation in Particle Technology<br />
The Kinetex core-shell particle is not fully porous. Using sol-gel processing techniques that incorporate<br />
nano structuring technology, a durable, homogenous porous shell is grown on a solid silica core.<br />
This highly optimized process combined with uniform particle size distribution produces a column<br />
that generates extremely high plate counts. When using Kinetex 2.6 µm, less column backpressure is<br />
generated, allowing it to be used on any LC system. †<br />
Kinetex 1.7 µm<br />
<strong>Co</strong>re-Shell Particle<br />
• Reduced diffusion path<br />
maximizes efficiency<br />
• Increased efficiencies<br />
compared to traditional<br />
fully porous sub-2 µm<br />
columns. Typical operating<br />
backpressures > 400 bar<br />
Kinetex 2.6 µm<br />
<strong>Co</strong>re-Shell Particle<br />
• Reduced diffusion path<br />
maximizes efficiency<br />
• Ultra-high performance<br />
on any system with<br />
Kinetex 2.6 µm columns<br />
1.9 µm Solid <strong>Co</strong>re<br />
0.35 µm Porous Shell<br />
1.25 µm Solid <strong>Co</strong>re<br />
0.23 µm Porous Shell<br />
1.7 µm<br />
2.6 µm<br />
<br />
<br />
SEM of Kinetex <strong>Co</strong>re-Shell Particles<br />
Cross Section of Kinetex <strong>Co</strong>re-Shell Particle<br />
†<br />
When using Kinetex 1.7 µm, increased performance can be achieved, however higher pressure-capable instrumentation is required.<br />
26 www.phenomenex.com international@phenomenex.com<br />
Phenomenex
Kinetex <br />
HPLC/UHPLC<br />
Ultra-High Performance<br />
<strong>Co</strong>mplementary and Orthogonal Selectivities<br />
To provide alternative and orthogonal selectivity phases, Kinetex columns are available in 5 selectivities: XB-C18,<br />
C18, C8, PFP (Pentafluorophenyl), and HILIC (Hydrophilic Interaction Liquid Chromatography), for resolution of a<br />
wide range of compounds from polar to hydrophobic, aromatic, and isomers.<br />
NEW! Kinetex XB-C18<br />
Protective butyl side-chains allow<br />
superior peak shape and enhanced<br />
separation of basic compounds<br />
Kinetex C18<br />
Offers the hydrophobic retention<br />
and methylene selectivity<br />
chromatographers expect from a<br />
C18 column.<br />
Low<br />
High<br />
TMS<br />
TMS<br />
Low<br />
High<br />
TMS<br />
Si<br />
TMS<br />
Hydrophobicity:<br />
Hydrophobicity:<br />
Polarity:<br />
Polarity:<br />
XB-<br />
C18<br />
<br />
H-Bonding:<br />
Aromatic Selectivity:<br />
Silanol Activity:<br />
pH Range: 1.5 – 10*<br />
USP Classification: L1<br />
Particle Sizes: 2.6 µm & 1.7 µm<br />
Effective Carbon Load: 10 %<br />
C18<br />
<br />
H-Bonding:<br />
Aromatic Selectivity:<br />
Silanol Activity:<br />
pH Range: 1.5 – 10*<br />
USP Classification: L1<br />
Particle Sizes: 2.6 µm & 1.7 µm<br />
Effective Carbon Load: 12 %<br />
NEW! Kinetex C8<br />
TMS<br />
C8<br />
TMS<br />
<br />
Brings the benefits of core-shell<br />
technology to USP L7 and other C8<br />
column methods.<br />
Hydrophobicity:<br />
Polarity:<br />
H-Bonding:<br />
Aromatic Selectivity:<br />
Silanol Activity:<br />
Low<br />
pH Range: 1.5 – 10*<br />
USP Classification: L7<br />
Particle Sizes: 2.6 µm & 1.7 µm<br />
Effective Carbon Load: 8 %<br />
High<br />
Kinetex PFP<br />
F<br />
F<br />
F<br />
F<br />
F<br />
TMS TMS<br />
PFP<br />
<br />
Pentafluorophenyl phase<br />
incorporates fluorine atoms on<br />
the periphery of the phenyl ring to<br />
provide unique aromatic and polar<br />
selectivity.<br />
Hydrophobicity:<br />
Polarity:<br />
H-Bonding:<br />
Aromatic Selectivity:<br />
Silanol Activity:<br />
Low<br />
pH Range: 1.5 – 8<br />
USP Classification: L43<br />
Particle Sizes: 2.6 µm & 1.7 µm<br />
Effective Carbon Load: 9 %<br />
High<br />
Kinetex HILIC<br />
H 20<br />
ACN ACN ACN ACN<br />
ACN ACN ACN ACN<br />
ACN ACN ACN ACN<br />
H 20<br />
ACN ACN ACN ACN<br />
Unbonded silica phase used under<br />
hydrophilic interaction chromatography<br />
conditions to provide<br />
selectivity for the retention and<br />
separation of polar compounds.<br />
H 20<br />
HO<br />
HO<br />
O<br />
H 20<br />
OH<br />
H 20<br />
H 20<br />
O<br />
H 20<br />
HO<br />
H 20 Si<br />
H 20<br />
OH<br />
Si<br />
HILIC<br />
Si<br />
<br />
OH<br />
Hydrophobicity:<br />
Polarity:<br />
H-Bonding:<br />
Aromatic Selectivity:<br />
Silanol Activity:<br />
Low<br />
pH Range: 2.0 – 7.5<br />
USP Classification: L3<br />
Particle Sizes: 2.6 µm & 1.7 µm<br />
Carbon Load: –<br />
High<br />
*<strong>Co</strong>lumns are pH stable from 1.5-10 under isocratic conditions. <strong>Co</strong>lumns are pH stable 2-8 under gradient conditions.<br />
Phenomenex international@phenomenex.com www.phenomenex.com<br />
27
Kinetex <br />
HPLC/UHPLC<br />
Ultra-High Performance<br />
Optimized for Ultra-High<br />
Performance<br />
Faster Mass Transfer<br />
Since the Kinetex particle is not fully porous, analytes<br />
spend less time diffusing into and out of the pores as<br />
they travel through the column. This shorter diffusion path<br />
allows for faster mass transfer. The result is less band<br />
broadening for higher peak efficiency comparable to or better<br />
than sub-2 µm fully porous particles.<br />
High Efficiency over Extended Range of Flow Rates<br />
30<br />
25<br />
2.6 µm Kinetex <strong>Co</strong>re-Shell<br />
<br />
Sub-2 µm Fully Porous<br />
Band Broadening<br />
Band Broadening<br />
HETP (µm)<br />
20<br />
15<br />
10<br />
Double the efficiency<br />
of 3 µm at high speed<br />
Sub-2 µm exceeds<br />
conventional pressure here<br />
3 µm<br />
3 µm Fully Porous<br />
5<br />
0<br />
0<br />
1 2 3 4 5<br />
Linear Velocity (mm/s)<br />
6 7 8 9 10<br />
Kinetex 2.6 µm <strong>Co</strong>re-Shell<br />
Sub-2 µm Fully Porous<br />
3 µm Fully Porous<br />
Band Broadening<br />
18755<br />
18756<br />
Kinetex particles are nearly monodispersed. This extremely narrow particle size distribution results in ultra-high<br />
column efficiency and excellent reproducibility.<br />
Uniform Particle Size Distribution<br />
Particle <strong>Co</strong>unt<br />
3000<br />
2000<br />
1000<br />
0<br />
1 2 3<br />
Particle Diameter (µm)<br />
Kinetex 2.6 µm <strong>Co</strong>re-Shell<br />
Traditional Fully Porous 1.7 µm<br />
Traditional Fully Porous 3 µm<br />
4 5 6<br />
Batch-to-Batch Reproducibility Overlay<br />
0<br />
1<br />
2<br />
3<br />
1<br />
<strong>Co</strong>nditions same for all batches:<br />
<strong>Co</strong>lumn: Kinetex 2.6 µm C18<br />
Dimensions: 50 x 4.6 mm<br />
Part No.: 00B-4462-E0<br />
Mobile Phase: Water / Acetonitrile (65:35)<br />
Flow Rate: 1.0 mL/min<br />
Detection: UV @ 254 nm<br />
Sample: 1. Uracil<br />
2. Hydroxycortisone<br />
3. <strong>Co</strong>rtisone<br />
4. <strong>Co</strong>rtisone acetate<br />
5. 17-Hydroxyprogesterone<br />
4<br />
Batch 68 R s<br />
(2,3) 2.00<br />
Batch 73 R s<br />
(2,3) 2.13<br />
Batch 75 R s<br />
(2,3) 2.06<br />
2 3 4 5 min<br />
5<br />
Batch 68<br />
Batch 73<br />
Batch 75<br />
App ID 18755, 18756, 18757<br />
28 www.phenomenex.com international@phenomenex.com<br />
Phenomenex
Kinetex <br />
HPLC/UHPLC<br />
Ultra-High Performance<br />
Achieve Sub-2 µm Performance within HPLC Backpressure Limitations<br />
With the efficiency of a sub-2 µm column and typical operating backpressure less than<br />
400 bar † , you can achieve the promise of ultra-high performance on any LC system.<br />
18165<br />
mV<br />
400<br />
1<br />
Traditional 1.7 µm<br />
N = 272,080 p/m<br />
> 400 bar!<br />
Method cannot transfer to<br />
a non-UHPLC instrument<br />
18166<br />
mV<br />
400<br />
1<br />
Kinetex 2.6 µm<br />
N = 267,720 p/m<br />
< 300 bar!<br />
Easier method transfer<br />
to ANY system<br />
200<br />
2<br />
3<br />
4<br />
200<br />
2<br />
3<br />
4<br />
0<br />
0<br />
0 1 2 min<br />
0<br />
1 2 min<br />
Unparalleled Levels of Ultra-High Performance<br />
For users of higher pressure capable instruments who want the highest level of efficiency,<br />
we introduce the Kinetex 1.7 µm column - the first sub-2 µm core-shell particle available<br />
on the market.<br />
18165<br />
mV<br />
400<br />
1<br />
Traditional 1.7 µm<br />
N = 272,080 p/m<br />
18167<br />
mV<br />
400<br />
Kinetex 1.7 µm<br />
N = 318,680 p/m<br />
1<br />
200<br />
2<br />
3<br />
4<br />
200<br />
2<br />
3<br />
4<br />
App ID 18165<br />
App ID 18167<br />
App ID 18165<br />
App ID 18166<br />
<strong>Co</strong>nditions for both columns:<br />
<strong>Co</strong>lumn: Kinetex 2.6 µm C18<br />
Traditional 1.7 µm C18<br />
Dimensions: 50 x 2.1 mm<br />
Mobile Phase: Acetonitrile / Water (50:50)<br />
Flow Rate: 0.6 mL/min<br />
Temperature: 25 °C<br />
Detection: UV @ 254 nm<br />
Instrument: *Waters ® ACQUITY ® UPLC ®<br />
Sample: 0.5 µL test mixture<br />
1. Acetophenone<br />
2. Benzene<br />
3. Toluene<br />
4. Naphthalene<br />
0<br />
0<br />
0 1 2 min<br />
0 1 2 min<br />
<strong>Co</strong>nditions for both columns:<br />
<strong>Co</strong>lumn: Kinetex 1.7 µm C18<br />
Traditional 1.7 µm C18<br />
Dimensions: 50 x 2.1 mm<br />
Mobile Phase: Acetonitrile / Water (50:50)<br />
Flow Rate: 0.6 mL/min<br />
Temperature: 25 °C<br />
Detection: UV @ 254 nm<br />
Instrument: *Waters ® ACQUITY ® UPLC ®<br />
Sample:<br />
1. Acetophenone<br />
2. Benzene<br />
3. Toluene<br />
4. Naphthalene<br />
†<br />
Kinetex 2.6 µm columns, 2.1 mm ID, are pressure rated to 1000 bar use on both HPLC and UHPLC instrumentation.<br />
* Waters, ACQUITY, and UPLC are registered trademarks of Waters <strong>Co</strong>rporation. Phenomenex is not affiliated with Waters <strong>Co</strong>rporation.<br />
<strong>Co</strong>mparative separations may not be representative of all applications.<br />
Phenomenex international@phenomenex.com www.phenomenex.com<br />
29
Kinetex <br />
HPLC/UHPLC<br />
Ultra-High Performance<br />
Substitute 3 µm and 5 µm <strong>Co</strong>lumns for 2-3x Higher Efficiency<br />
18628<br />
Replace traditional 3 µm or 5 µm analytical columns with Kinetex 2.6 µm core-shell columns for immediate performance improvements<br />
in efficiency, speed, resolution, and sensitivity. Optimize methods for ultra-high performance and transfer them to any system.<br />
mV<br />
240<br />
210<br />
180<br />
150<br />
120<br />
90<br />
60<br />
30<br />
0<br />
18280<br />
0 2<br />
1<br />
1<br />
2<br />
2<br />
3<br />
4<br />
3<br />
5<br />
4<br />
6<br />
Traditional 3 µm<br />
N = 166,502 p/m<br />
7<br />
<strong>Co</strong>nditions for both columns:<br />
<strong>Co</strong>lumn: Kinetex 2.6 µm C18<br />
Traditional 3 µm C18<br />
Dimensions: 150 x 4.6 mm<br />
Mobile Phase: Acetonitrile / Water (70:30)<br />
Flow Rate: 1.8 mL/min<br />
Temperature: 25 °C<br />
Backpressure: 380 bar (Kinetex)<br />
250 bar (Traditional 3 µm)<br />
Detection: UV @ 254 nm<br />
Instrument: Agilent 1200SL<br />
8<br />
Sample:<br />
9<br />
4<br />
10<br />
11<br />
App ID 18628<br />
min<br />
1. Uracil<br />
2. Acetophenone<br />
12 13<br />
18539<br />
mV<br />
240<br />
210<br />
180<br />
150<br />
120<br />
90<br />
60<br />
30<br />
0<br />
1<br />
2<br />
0 2<br />
3. Toluene<br />
4. Naphthalene<br />
Obtain Higher Throughput without Sacrificing Resolution<br />
3<br />
4<br />
Kinetex 2.6 µm<br />
N = 295,343 p/m<br />
4 min<br />
For the ultimate sample throughput demands, Kinetex columns provide 18276 the efficiency needed to significantly reduce run times. In this<br />
separation of 13 ketones, a 20-fold increase in productivity is accomplished while still maintaining resolution.<br />
Traditional 5 µm<br />
> 60 min<br />
Rs 10,11<br />
= 3.11<br />
App ID 18280<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
7<br />
8<br />
< 3 min<br />
Resolution maintained<br />
Rs 10,11<br />
= 3.12<br />
9<br />
10<br />
11<br />
12<br />
13<br />
App ID 18539<br />
Kinetex 2.6 µm<br />
App ID 18276<br />
0<br />
<strong>Co</strong>lumn: Traditional 5 µm C18<br />
Dimensions: 250 x 4.6 mm<br />
Mobile Phase: A: Water<br />
B: Acetonitrile<br />
Gradient: Time (min) % B<br />
0 5<br />
4.78 5<br />
51.52 95<br />
Flow Rate: 0.714 mL/min<br />
Temperature: 45 °C<br />
Detection: UV @ 258 nm<br />
Sample:<br />
20 40 60 min<br />
1. Acetone<br />
2. 2-Butanone<br />
3. 2-Pentanone<br />
4. Acetophenone<br />
5. 2-Heptanone<br />
6. Butyrophenone<br />
7. 2-Nonanone<br />
Time (min) % B<br />
66 95<br />
66.01 5<br />
86.38 5<br />
8. Hexanophenone<br />
9. Octanophenone<br />
10. 2-Tridecanone<br />
11. Decanophenone<br />
12. 2-Pentadecanone<br />
13. 2-Hexadecanone<br />
<strong>Co</strong>mparative separations may not be representative of all applications.<br />
0 1<br />
2 min<br />
<strong>Co</strong>lumn: Kinetex 2.6 µm C18<br />
Dimensions: 50 x 4.6 mm<br />
Part No.: 00B-4462-E0<br />
Mobile Phase: A: Water<br />
B: Acetonitrile<br />
Gradient: Time (min) % B<br />
0 5<br />
0.23 5<br />
2.19 95<br />
Flow Rate: 3.4 mL/min<br />
Temperature: 45 °C<br />
Detection: UV @ 258 nm<br />
Backpressure: 350 bar<br />
Sample:<br />
1. Acetone<br />
2. 2-Butanone<br />
3. 2-Pentanone<br />
4. Acetophenone<br />
5. 2-Heptanone<br />
6. Butyrophenone<br />
7. 2-Nonanone<br />
Time (min) % B<br />
2.75 95<br />
2.76 5<br />
3.61 5<br />
8. Hexanophenone<br />
9. Octanophenone<br />
10. 2-Tridecanone<br />
11. Decanophenone<br />
12. 2-Pentadecanone<br />
13. 2-Hexadecanone<br />
30 www.phenomenex.com international@phenomenex.com<br />
Phenomenex
Kinetex <br />
HPLC/UHPLC<br />
Ultra-High Performance<br />
Easy Method Transfer Across LC System Platforms<br />
UHPLC methods developed with fully porous sub-2 µm columns often generate<br />
backpressure higher than HPLC system limitations. With Kinetex 2.6 µm<br />
core-shell technology, you are no longer restricted from developing high performance<br />
LC methods on any system and transferring them anywhere. In these<br />
examples different internal diameters of Kinetex columns are used on various<br />
systems to illustrate the versatility of Kinetex core-shell technology. Please note<br />
the flow rates are scaled to maintain the same linear velocity.<br />
Kinetex 4.6 mm ID<br />
on Agilent 1100<br />
<strong>Co</strong>lumn: Kinetex 2.6 µm C18<br />
Dimensions: 50 x 4.6 mm<br />
Part No.: 00B-4462-E0<br />
Mobile Phase: Acetonitrile / Water (50:50)<br />
Flow Rate: 2.35 mL/min<br />
Temperature: Ambient<br />
Detection: UV @ 254 nm<br />
Sample: 1. Uracil<br />
2. Acetophenone<br />
3. Toluene<br />
4. Naphthalene<br />
Kinetex 3.0 mm ID<br />
on *Shimadzu Prominence UFLCx r <br />
<strong>Co</strong>lumn: Kinetex 2.6 µm C18<br />
Dimensions: 50 x 3.0 mm<br />
Part No.: 00B-4462-Y0<br />
Mobile Phase: Acetonitrile / Water (50:50)<br />
Flow Rate: 1.0 mL/min<br />
Temperature: Ambient<br />
Detection: UV @ 254 nm<br />
Sample: 1. Uracil<br />
2. Acetophenone<br />
18567<br />
3. Toluene<br />
4. Naphthalene<br />
4<br />
2 3<br />
4<br />
3<br />
1<br />
2<br />
App ID 18565<br />
1<br />
App ID 18567<br />
0<br />
1 2 min<br />
0 1 2 min<br />
Kinetex 2.1 mm ID<br />
on Agilent 1200SL<br />
<strong>Co</strong>lumn: Kinetex 2.6 µm C18<br />
Dimensions: 50 x 2.1 mm<br />
Part No.: 00B-4462-AN<br />
Mobile Phase: Acetonitrile / Water (50:50)<br />
Flow Rate: 0.49 mL/min<br />
Temperature: Ambient<br />
Detection: UV @ 254 nm<br />
Sample: 1. Uracil<br />
2. Acetophenone<br />
3. Toluene<br />
4. Naphthalene<br />
Kinetex 2.1 mm ID<br />
on *Waters ® ACQUITY ® UPLC ®<br />
<strong>Co</strong>lumn: Kinetex 2.6 µm C18<br />
Dimensions: 50 x 2.1 mm<br />
Part No.: 00B-4462-AN<br />
Mobile Phase: Acetonitrile / Water (50:50)<br />
Flow Rate: 0.49 mL/min<br />
Temperature: Ambient<br />
Detection: UV @ 254 nm<br />
18568 Sample: 1. Uracil<br />
2. Acetophenone<br />
3. Toluene<br />
4. Naphthalene<br />
4<br />
2<br />
3<br />
2 3<br />
4<br />
1<br />
App ID 18566<br />
1<br />
App ID 18568<br />
0 1<br />
2 min<br />
0<br />
1<br />
2 min<br />
* Waters, ACQUITY, and UPLC are registered trademarks of Waters <strong>Co</strong>rporation. Prominence and UFLC are trademarks of<br />
Shimadzu <strong>Co</strong>rporation. Phenomenex is not affiliated with Agilent Technologies, Waters <strong>Co</strong>rp. or Shimadzu.<br />
Phenomenex international@phenomenex.com www.phenomenex.com<br />
31
Kinetex <br />
HPLC/UHPLC<br />
Ultra-High Performance<br />
Improve Performance, Save Solvent<br />
When chromatographic column performance improves you can not only decrease your analysis time but also<br />
decrease your overall solvent consumption without compromising your separations. Use Kinetex core-shell technology<br />
to dramatically decrease the solvent consumption in your laboratory and increase sample throughput.<br />
<strong>Co</strong>lumn: Traditional 5 µm C18<br />
Dimensions: 250 x 4.6 mm<br />
Flow Rate: 1.0 mL/min<br />
18243<br />
Example Method <strong>Co</strong>nsumption<br />
2<br />
4<br />
5<br />
6<br />
110 mL<br />
solvent per run!<br />
1<br />
3<br />
7 8<br />
9<br />
10<br />
App ID 18243<br />
0<br />
20 40 60 80 100 120 min<br />
<strong>Co</strong>lumn: Kinetex 2.6 µm C18<br />
Dimensions: 50 x 2.1 mm<br />
Part No.: 00B-4462-AN<br />
Flow Rate: 0.6 mL/min<br />
Less Solvent <strong>Co</strong>nsumption with Kinetex <strong>Co</strong>lumn<br />
18245<br />
2<br />
4<br />
5<br />
6<br />
< 4 mL<br />
solvent per run!<br />
1<br />
3<br />
7 8<br />
9<br />
10<br />
App ID 18245<br />
0<br />
1 2 3 4 min<br />
<strong>Co</strong>nditions for both columns:<br />
Mobile Phase: A: 20 mM Potassium phosphate pH 7<br />
B: Methanol / Acetonitrile (50:50)<br />
A/B (48:52)<br />
Temperature: 40 ºC<br />
Detection: UV @ 254 nm<br />
Sample:<br />
1. Tianeptine<br />
2. Desmethyldoxepin<br />
3. Protriptyline<br />
4. Desipramine<br />
5. Imipramine<br />
6. Amoxapine<br />
7. Doxepin<br />
8. Nortriptyline<br />
9. Amitriptyline<br />
10. Clomipramine<br />
Reach Lower Levels of Detection and Quantitation<br />
The combination of the small particle size, narrow particle size distribution, and the significantly shorter diffusion path results in much higher<br />
column efficiencies and increased chromatographic resolution. The increased efficiencies provide an immediate benefit on sensitivity since<br />
higher chromatographic efficiencies translate into significantly narrower and taller peaks, making it easier to detect low level impurities.<br />
18262<br />
*ZORBAX ® 3.5 µm SB-C18<br />
18263<br />
Kinetex 2.6 µm C18<br />
mAU<br />
mAU<br />
0.8<br />
0.8<br />
0.6<br />
0.6<br />
0.4<br />
0.4<br />
0.2<br />
0.0<br />
App ID 18263<br />
0.2<br />
0.0<br />
App ID 18262<br />
4 6 min<br />
4 6 min<br />
<strong>Co</strong>nditions for both columns:<br />
Dimensions: 150 x 4.6 mm<br />
Mobile Phase: A: Water<br />
B: Acetonitrile<br />
Gradient: (95:5) A/B for 1.16 min, then to (5:95) A/B<br />
Flow Rate: 1.5 mL/min<br />
Temperature: 45 ºC<br />
Detection: UV @ 254 nm<br />
Instrument: Agilent 1200<br />
Sample:<br />
1. Pyridine<br />
2. Acetaminophen<br />
3. Pindolol<br />
4. Quinine<br />
5. Acebutolol<br />
6. Chlorpheniramine<br />
7. Triprolidine<br />
8. Prednisolone<br />
9. Nortriptyline<br />
10. 4-Chlorobenzoic acid<br />
11. 5-Methyl-2-hydroxy benzaldehyde<br />
12. 4-Chlorocinnamic acid<br />
13. Diazepam<br />
14. Diflunisal<br />
15. Niflumic acid<br />
16. Hexanophenone<br />
* Zorbax is a registered trademark of Agilent Technologies. <strong>Co</strong>mparative separations may not be representative of all applications.<br />
Phenomenex is not affiliated with Agilent Technologies.<br />
32 www.phenomenex.com international@phenomenex.com<br />
Phenomenex
Kinetex <br />
HPLC/UHPLC<br />
Ultra-High Performance<br />
For more applications on our Kinetex HPLC columns, contact your local Phenomenex Distributor.<br />
Veterinary Drugs<br />
19465<br />
1<br />
C8<br />
Steroids<br />
19487<br />
1<br />
XB-C18<br />
7 2 5<br />
3 8<br />
4<br />
6<br />
App ID 19465<br />
3<br />
2<br />
5<br />
4<br />
6<br />
8<br />
7<br />
9<br />
App ID 19487<br />
4 5<br />
6<br />
7 min<br />
19488<br />
0 1<br />
2 3 4 5 min<br />
19466<br />
1<br />
2<br />
7<br />
5<br />
3<br />
4,8<br />
6<br />
C18<br />
App ID 19466<br />
1<br />
3<br />
2<br />
4<br />
5<br />
6<br />
8<br />
7<br />
9<br />
C18<br />
App ID 19488<br />
4<br />
5 6 7 min<br />
0 1<br />
2<br />
3 4 5 min<br />
<strong>Co</strong>nditions for both columns:<br />
<strong>Co</strong>lumn: Kinetex 2.6 µm C8<br />
Kinetex 2.6 µm C18<br />
Dimensions: 100 x 4.6 mm<br />
Mobile Phase: A: 0.1% Phosphoric acid in Water<br />
B: 0.1% Phosporic acid in Acetonitrile<br />
Gradient: Time (min)<br />
% B<br />
0 30<br />
4 50<br />
7.5 70<br />
Flow Rate: 1.5 mL/min<br />
Temperature: 25 ºC<br />
Detection: UV @ 230 nm<br />
Sample:<br />
1. Naproxen<br />
2. Fenoprofen<br />
3. Ibuprofen<br />
4. Phenylbutazone<br />
Time (min)<br />
% B<br />
9 95<br />
10 30<br />
5. Indomethacin<br />
6. Meclofenamic acid<br />
7. Matrix impurity<br />
8. Matrix impurity<br />
<strong>Co</strong>nditions for both columns:<br />
<strong>Co</strong>lumn: Kinetex 2.6 µm XB-C18<br />
Kinetex 2.6 µm C18<br />
Dimensions: 50 x 2.1 mm<br />
Mobile Phase: A: Water<br />
B: Acetonitrile<br />
Gradient: Time (min) % B<br />
0 20<br />
6 60<br />
Flow Rate: 0.5 mL/min<br />
Temperature: 30 ºC<br />
Detection: UV @ 220 nm<br />
Sample: 1. Estriol<br />
2. Hydrocortisone<br />
3. <strong>Co</strong>rtisone<br />
4. Estradiol<br />
5. <strong>Co</strong>rtisone-21-acetate<br />
18522<br />
Time (min) % B<br />
6.01 20<br />
8 20<br />
6. 21-Hydroxyprogesterone<br />
7. Estrone<br />
8. 17-Hydroxyprogesterone<br />
9. Deoxycorticosterone acetate<br />
18605<br />
Norepinephrine and Epinephrine<br />
2<br />
HILIC<br />
Explosives<br />
18564<br />
3<br />
4<br />
PFP<br />
Resorcinol<br />
C18<br />
18604<br />
1<br />
2<br />
1<br />
1<br />
App ID 18605<br />
2 3 min<br />
C18<br />
App ID 18604<br />
18563<br />
1<br />
1<br />
2<br />
2 3 4 5 6 min<br />
4<br />
3<br />
7<br />
5 6<br />
5<br />
6<br />
7<br />
1<br />
2<br />
App ID 18564<br />
C18<br />
App ID 18563<br />
3<br />
1<br />
2<br />
5<br />
6<br />
4<br />
18521<br />
0 0.5 1 1.5 2 2.5<br />
2,3<br />
1<br />
5<br />
4<br />
App ID 18521 App ID 18522<br />
min<br />
PFP<br />
1 2 3 min<br />
1<br />
2 3 4 5 6 min<br />
0 0.5 1 1.5 2 2.5<br />
min<br />
<strong>Co</strong>nditions for both columns:<br />
<strong>Co</strong>lumn: Kinetex 2.6 µm HILIC<br />
Kinetex 2.6 µm C18<br />
Dimensions: 50 x 2.1 mm<br />
Mobile Phase<br />
(HILIC):<br />
Acetonitrile / 100 mM<br />
Ammonium formate<br />
pH 3.2 (92:8)<br />
Mobile Phase (C18): 5 mM Ammonium<br />
formate pH 3.2 /<br />
Methanol (97:3)<br />
Flow Rate: 0.4 mL/min<br />
Temperature: 30 °C<br />
Detection: UV @ 210 nm<br />
Sample: 1. Norepinephrine<br />
2. Epinephrine<br />
<strong>Co</strong>nditions for both columns:<br />
<strong>Co</strong>lumn: Kinetex 2.6 µm PFP<br />
Kinetex 2.6 µm C18<br />
Dimensions: 100 x 4.6mm<br />
Mobile Phase: A: Water<br />
B: Methanol<br />
Gradient: (45:55) A/B to (35:65) A/B<br />
over 6 min<br />
Flow Rate: 1.2 mL/min<br />
Temperature: 22 ºC<br />
Detection: UV @ 254 nm<br />
Sample: 1. HMX<br />
2. RDX<br />
3. 1,3,5-Trinitrobenzene<br />
4. 1,3-Dinitrobenzene<br />
5. Nitrobenzene<br />
6. 2,4,6-Trinitrotoluene<br />
7. 2,4-Dinitrotoluene<br />
<strong>Co</strong>nditions for both columns:<br />
<strong>Co</strong>lumn: Kinetex 2.6 µm PFP<br />
Kinetex 2.6 µm C18<br />
Dimensions: 50 x 2.1 mm<br />
Mobile Phase: 0.1 % Formic acid in Water /<br />
0.1 % Formic acid in Acetonitrile<br />
(85:15)<br />
Flow Rate: 0.5 mL/min<br />
Temperature: 25 °C<br />
Detection: UV @ 270 nm<br />
Sample: 1. Resorcinol<br />
2. 2-Methylresorcinol<br />
3. Catechol<br />
4. 2,5-Dimethylresorcinol<br />
5. 4-Methylcatechol<br />
6. 4-Nitrocatechol<br />
<strong>Co</strong>mparative separations may not be representative of all applications.<br />
Phenomenex international@phenomenex.com www.phenomenex.com<br />
33
Kinetex <br />
HPLC/UHPLC<br />
Ultra-High Performance<br />
Choosing the<br />
Best Kinetex <strong>Co</strong>lumn<br />
Expected Backpressure at Different Flow Rates*<br />
There is an optimal Kinetex column for your system and operating conditions.<br />
Use these graphs to determine the starting Kinetex particle size and dimension<br />
for your method.<br />
50:50 (Acetonitrile:Water)<br />
60:40 (Methanol:Water)<br />
600<br />
600<br />
Pressure (bar)<br />
500<br />
400<br />
300<br />
200<br />
UHPLC<br />
System<br />
Pressure (bar)<br />
500<br />
400<br />
300<br />
200<br />
UHPLC<br />
System<br />
100<br />
HPLC<br />
System<br />
0<br />
0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 min<br />
Flow Rate (mL/min)<br />
100<br />
HPLC<br />
System<br />
0<br />
0.0 0.5 1.0 1.5 2.0 2.5 3.0 min<br />
Flow Rate (mL/min)<br />
Kinetex 100 x 2.1 mm, 1.7 µm<br />
Kinetex 50 x 2.1 mm, 1.7 µm<br />
Kinetex 150 x 2.1 mm, 2.6 µm<br />
Kinetex 100 x 2.1 mm, 2.6 µm<br />
Kinetex 50 x 2.1 mm, 2.6 µm<br />
Kinetex 150 x 4.6 mm, 2.6 µm<br />
Kinetex 100 x 4.6 mm, 2.6 µm<br />
Kinetex 50 x 4.6 mm, 2.6 µm<br />
Select the right Kinetex<br />
column ID and flow rate (mL/min)<br />
4.6<br />
3.0<br />
2.1<br />
0 0.5 1.0 1.5 2.0<br />
Optimum<br />
0 0.5 1.0 1.5 2.0<br />
Optimum<br />
0 0.5 1.0 1.5 2.0<br />
Optimum<br />
Faster<br />
2.5 3.0 mL/min<br />
Faster<br />
2.5<br />
Faster<br />
2.5<br />
mL/min<br />
mL/min<br />
KINETEX CALCULATOR!<br />
Instantly optimize your method at<br />
www.phenomenex.com/optimize OR<br />
contact Your Phenomenex representative<br />
for optimization assistance.<br />
34 www.phenomenex.com international@phenomenex.com<br />
Phenomenex
Kinetex <br />
HPLC/UHPLC<br />
Ultra-High Performance<br />
Ordering Information<br />
2.6 μm Analytical <strong>Co</strong>lumns (mm) KrudKatcher Ultra<br />
Phases 30 x 4.6 50 x 4.6 75 x 4.6 100 x 4.6 150 x 4.6<br />
/3pk<br />
XB-C18 –– 00B-4496-E0 00C-4496-E0 00D-4496-E0 00F-4496-E0 AF0-8497<br />
C18 00A-4462-E0 00B-4462-E0 00C-4462-E0 00D-4462-E0 00F-4462-E0 AF0-8497<br />
C8 –– 00B-4497-E0 00C-4497-E0 00D-4497-E0 00F-4497-E0 AF0-8497<br />
PFP 00A-4477-E0 00B-4477-E0 00C-4477-E0 00D-4477-E0 00F-4477-E0 AF0-8497<br />
HILIC –– 00B-4461-E0 00C-4461-E0 00D-4461-E0 00F-4461-E0 AF0-8497<br />
2.6 μm Solvent Saver MidBore <strong>Co</strong>lumns (mm) KrudKatcher Ultra<br />
Phases 30 x 3.0 50 x 3.0 75 x 3.0 100 x 3.0 150 x 3.0<br />
/3pk<br />
XB-C18 –– 00B-4496-Y0 –– 00D-4496-Y0 –– AF0-8497<br />
C18 00A-4462-Y0 00B-4462-Y0 00C-4462-Y0 00D-4462-Y0 00F-4462-Y0 AF0-8497<br />
C8 –– 00B-4497-Y0 –– 00D-4497-Y0 –– AF0-8497<br />
PFP 00A-4477-Y0 00B-4477-Y0 00C-4477-Y0 00D-4477-Y0 00F-4477-Y0 AF0-8497<br />
HILIC –– –– –– –– 00F-4461-Y0 AF0-8497<br />
2.6 μm Minibore <strong>Co</strong>lumns (mm) KrudKatcher Ultra<br />
Phases 30 x 2.1 50 x 2.1 100 x 2.1 150 x 2.1<br />
/3pk<br />
XB-C18 00A-4496-AN 00B-4496-AN 00D-4496-AN 00F-4496-AN AF0-8497<br />
C18 00A-4462-AN 00B-4462-AN 00D-4462-AN 00F-4462-AN AF0-8497<br />
C8 00A-4497-AN 00B-4497-AN 00D-4497-AN 00F-4497-AN AF0-8497<br />
PFP 00A-4477-AN 00B-4477-AN 00D-4477-AN 00F-4477-AN AF0-8497<br />
HILIC –– 00B-4461-AN 00D-4461-AN 00F-4461-AN AF0-8497<br />
1.7 μm Minibore <strong>Co</strong>lumns (mm) KrudKatcher Ultra<br />
Phases 50 x 2.1 100 x 2.1 150 x 2.1<br />
/3pk<br />
XB-C18 00B-4498-AN 00D-4498-AN –– AF0-8497<br />
C18 00B-4475-AN 00D-4475-AN 00F-4475-AN AF0-8497<br />
C8 00B-4499-AN 00D-4499-AN –– AF0-8497<br />
PFP 00B-4476-AN 00D-4476-AN 00F-4476-AN AF0-8497<br />
HILIC 00B-4474-AN –– –– AF0-8497<br />
The KrudKatcher Ultra:<br />
• Fits virtually all UHPLC / HPLC columns<br />
1.0 to 4.6 mm ID<br />
• Pressure rated to 20,000 psi (1,375 bar)<br />
• Extremely low dead volume minimizes sample peak dispersion<br />
The KrudKatcher Ultra filter body houses an integrated 0.5 µm<br />
316 stainless steel depth filter that efficiently removes microparticulates<br />
from the flow stream without contributing to system<br />
backpressure or dead volume (
Gemini ®<br />
HPLC<br />
pH Stable 1-12<br />
Gemini-NX C18<br />
• <strong>Co</strong>ntrol selectivity of ionizable compounds for<br />
optimized methods<br />
• <strong>Co</strong>nsistent performance in both volatile and non-volatile<br />
buffers<br />
• High sample loading capacity for metabolite identification<br />
and preparative purification<br />
• pH stable 1-12 for durability<br />
Gemini-NX C18<br />
USP: L1<br />
LC/MS<br />
Certified<br />
Hydrophobicity<br />
H-Bonding<br />
Aromatic Selectivity<br />
Low<br />
Silanol Activity (pH 2.5)<br />
see p. 376 for testing probes.<br />
pH Stability 1.0-12.0<br />
Particle Size 3, 5, and 10 μm<br />
Phase C18<br />
Application Small Molecules, Basic <strong>Co</strong>mpounds<br />
Strength Most durable Hybrid Particle<br />
High<br />
Material Characteristics<br />
Packing Material<br />
Particle<br />
Shape/Size<br />
(µm)<br />
Pore<br />
Size<br />
(Å)<br />
Surface<br />
Area<br />
(m 2 /g)<br />
Carbon<br />
Load<br />
%<br />
End<br />
Capping<br />
Gemini-NX C18 Spherical 3, 5,10 110 375 14 TMS<br />
Gemini-NX Tested for Extreme Durability in<br />
Changing Mobile Phase pH<br />
<strong>Co</strong>lumn Efficiencies Maintained in High pH Testing for 20 Cycles<br />
% of Initial Efficiencies<br />
Retention in Minutes<br />
110<br />
100<br />
90<br />
80<br />
70<br />
60<br />
50<br />
0 5 10 15 20<br />
6<br />
5<br />
4<br />
3<br />
2<br />
1<br />
Diphenhydramine<br />
Tetracaine<br />
Stable Efficiencies After<br />
Exposure to 10,000<br />
<strong>Co</strong>lumn Volumes of High and<br />
Low pH Buffers<br />
Cycles of Exposure<br />
Retention Times of Four Probes Maintained in Neutral pH<br />
Testing for 20 Cycles<br />
Retention Times Maintained<br />
After Exposure to 10,000<br />
<strong>Co</strong>lumn Volumes of High and<br />
Low pH Buffers<br />
0<br />
0 5 10 15 20<br />
Acetophenone<br />
Benzene<br />
Toluene<br />
Acenaphthene<br />
Sequence<br />
<strong>Co</strong>lumn Used:<br />
<strong>Co</strong>lumn: Gemini-NX 5 µm C18<br />
Dimensions: 150 x 4.6 mm<br />
Part No.: 00F-4454-E0<br />
Step 1<br />
24x High pH Flush Procedures<br />
Mobile Phase: A: 10 mM Ammonium<br />
Bicarbonate pH 10.5<br />
B: Acetonitrile<br />
Gradient: 5 % to 95 % B in 6 min<br />
Hold at 95 % B for 2 min<br />
Re-equilibrate: 5 % B for 2 min<br />
Flow Rate: 1.5 mL/min<br />
Step 2<br />
High pH Testing<br />
Isocratic: 10 mM Ammonium<br />
Bicarbonate pH 10.5 /<br />
Acetonitrile (50:50)<br />
Flow Rate: 1.5 mL/min<br />
Detection: UV @ 230 nm<br />
Samples: 1. Tetracaine<br />
2. Diphenhydramine<br />
Step 3<br />
1x Neutral Flush Procedure<br />
Mobile Phase: A: Water<br />
B: Acetonitrile<br />
Gradient: 5 % B for 2 min<br />
5 % to 100 % B in 3 min<br />
Hold at 100 % B for 5 min<br />
Flow Rate: 1.5 mL/min<br />
Step 4<br />
Neutral pH Testing<br />
Isocratic: Water / Acetonitrile<br />
(35:65)<br />
Flow Rate: 1.0 mL/min<br />
Detection: UV @ 254 nm<br />
Samples: 1. Acetophenone<br />
2. Benzene<br />
3. Toluene<br />
4. Acenaphthene<br />
Step 5<br />
24x Low pH Flush Procedure<br />
Mobile Phase: A: 0.5 % Formic Acid in Water<br />
B: 0.5 % Formic Acid in<br />
Acetonitrile, pH 2.0<br />
Gradient: 5 % to 95 % B in 6 min<br />
Hold at 95 % B for 2 min<br />
Re-equilibrate: 5 % B for 2 min<br />
Flow Rate: 1.5 mL/min<br />
Step 6<br />
Neutral pH Flush Repeats<br />
Repeats for 20 Cycles<br />
36 www.phenomenex.com international@phenomenex.com<br />
Phenomenex
Gemini ®<br />
HPLC<br />
pH Stable 1-12<br />
Second-Generation TWIN-NX <br />
Technology<br />
TWIN-NX technology uses an improved patented organo-silica<br />
grafting process which incorporates highly stabilizing ethane<br />
cross-linking. These organic groups are evenly incorporated into<br />
the grafted layers on the silica surface while maintaining a pure<br />
silica core. This not only provides resistance to high pH attack,<br />
but also maintains the high efficiency and mechanical strength of<br />
a silica particle.<br />
O O O<br />
O O O<br />
O Si CH2 CH2<br />
Si O Si S<br />
CH2<br />
CH2<br />
Si CH2 CH2<br />
O<br />
Si O Si Si<br />
CH2<br />
CH2<br />
O O O O<br />
O O O O<br />
CH2<br />
C<br />
CH2<br />
Si O Si CH2 Si O Si CH2<br />
CH2<br />
CH2<br />
CH2Si<br />
O Si Si O Si<br />
CH2<br />
CH2<br />
C<br />
O O O O<br />
O O O O C<br />
CH2<br />
CH2<br />
O Si Si O Si Si CH2<br />
CH2<br />
CH2<br />
CH2<br />
CH2<br />
O Si Si O Si Si<br />
CH2<br />
CH2<br />
O O O<br />
O O O<br />
Ordering Information<br />
3 μm Microbore, Minibore and Narrow Bore <strong>Co</strong>lumns (mm) SecurityGuard Cartridges (mm)<br />
Phases 50 x 1.0 20 x 2.0 30 x 2.0 50 x 2.0 100 x 2.0 150 x 2.0 50 x 3.0 100 x 3.0 150 x 3.0 4 x 2.0*<br />
/10pk<br />
NX C18 — 00M-4453-B0 00A-4453-B0 00B-4453-B0 00D-4453-B0 00F-4453-B0 00B-4453-Y0 00D-4453-Y0 00F-4453-Y0 AJ0-8367<br />
for ID: 2.0-3.0 mm<br />
3 μm Analytical <strong>Co</strong>lumns (mm) SecurityGuard Cartridges (mm)<br />
Phases 20 x 4.0 30 x 4.6 50 x 4.6 100 x 4.6 150 x 4.6 250 x 4.6 4 x 3.0*<br />
/10pk<br />
NX C18 — — 00B-4453-E0 00D-4453-E0 00F-4453-E0 00G-4453-E0 AJ0-8368<br />
for ID: 3.2-8.0 mm<br />
5 μm Minibore and Narrow Bore <strong>Co</strong>lumns (mm) SecurityGuard Cartridges (mm)<br />
Phases 30 x 2.0 50 x 2.0 150 x 2.0 250 x 2.0 50 x 3.0 100 x 3.0 150 x 3.0 250 x 3.0 4 x 2.0*<br />
/10pk<br />
NX C18 00A-4454-B0 00B-4454-B0 00F-4454-B0 — 00B-4454-Y0 00D-4454-Y0 00F-4454-Y0 00G-4454-Y0 AJ0-8367<br />
for ID: 2.0-3.0 mm<br />
5 μm Analytical <strong>Co</strong>lumns (mm) SecurityGuard Cartridges (mm)<br />
Phases 30 x 4.6 50 x 4.6 100 x 4.6 150 x 4.6 250 x 4.6 4 x 3.0*<br />
/10pk<br />
NX C18 — 00B-4454-E0 00D-4454-E0 00F-4454-E0 00G-4454-E0 AJ0-8368<br />
for ID: 3.2-8.0 mm<br />
For Gemini Capillary HPLC <strong>Co</strong>lumns,<br />
Guards, and Adapter, contact your<br />
Phenomenex technical consultant or<br />
local distributor.<br />
5 μm Semi-Prep <strong>Co</strong>lumns (mm) SecurityGuard Cartridges (mm)<br />
Phases 150 x 10 250 x 10 10 x 10 ‡<br />
/3pk<br />
NX C18 00F-4454-N0 00G-4454-N0 AJ0-8369<br />
for ID: 9-16 mm<br />
Axia Packed Preparative <strong>Co</strong>lumns (mm)<br />
SecurityGuard Cartridges (mm)<br />
Phases 50 x 21.2 100 x 21.2 150 x 21.2 250 x 21.2 50 x 30 75 x 30 15 x 21.2** 15 x 30.0<br />
5 μm /ea /ea<br />
NX C18 00B-4454-P0-AX 00D-4454-P0-AX 00F-4454-P0-AX 00G-4454-P0-AX 00B-4454-U0-AX 00C-4454-U0-AX AJ0-8370 AJ0-8371<br />
10 μm /ea /ea<br />
NX C18 00B-4455-P0-AX 00D-4455-P0-AX 00F-4455-P0-AX 00G-4455-P0-AX — — AJ0-8370 AJ0-8371<br />
for ID: 18-29 mm 30-49 mm<br />
Axia Packed Preparative <strong>Co</strong>lumns (mm) continued<br />
SecurityGuard Cartridges (mm)<br />
Phases 100 x 30 150 x 30 250 x 30 50 x 50 100 x 50 150 x 50 250 x 50 15 x 30.0 ♦<br />
5 μm — — — /ea<br />
NX C18 00D-4454-U0-AX 00F-4454-U0-AX 00G-4454-U0-AX 00B-4454-V0-AX — — — AJ0-8371<br />
10 μm /ea<br />
NX C18 00D-4455-U0-AX 00F-4455-U0-AX 00G-4455-U0-AX 00B-4455-V0-AX 00D-4455-V0-AX 00F-4455-V0-AX 00G-4455-V0-AX AJ0-8371<br />
for ID: 30-49 mm<br />
Gemini is a registered trademark of Phenomenex, Inc.<br />
Twin-NX is a trademark of Phenomenex, Inc.<br />
*SecurityGuard Analytical Cartridges require holder, Part No.: KJ0-4282<br />
‡<br />
SemiPrep SecurityGuard Cartridges require holder, Part No.: AJ0-7220<br />
**PREP SecurityGuard Cartridges require holder, Part No.: AJ0-8223<br />
PREP SecurityGuard Cartridges require holder, Part No.: AJ0-8277<br />
Phenomenex international@phenomenex.com www.phenomenex.com<br />
37
Synergi <br />
HPLC<br />
Full Range Selectivity for Reversed<br />
Phase Separation<br />
Synergi Polar-RP<br />
Phenyl<br />
Ether-Linked<br />
For polar and aromatic mixtures<br />
Synergi Fusion-RP<br />
C18<br />
Polar Embedded<br />
Balanced non-polar and polar performance<br />
Ether linkage increases aromaticity<br />
of the phenyl group and also provides π-π<br />
interactions with conjugated compounds<br />
Polar endcapping provides added<br />
retention for polar compounds<br />
Aq<br />
Aq<br />
Embedded polar group<br />
complements C18 ligand with<br />
balanced polar selectivity<br />
Aq<br />
TMS<br />
TMS endcapping<br />
ensures sharp peaks<br />
Aq<br />
TMS<br />
Ultra-pure Silica<br />
Ultra-pure Silica<br />
Synergi Hydro-RP<br />
C18<br />
Polar Endcapped<br />
Strong non-polar and polar retention<br />
Synergi Max-RP<br />
C12<br />
TMS Endcapped<br />
Excellent for basic compounds at neutral pH<br />
Polar endcapping provides added<br />
retention for polar compounds<br />
High density ligands and extensive<br />
endcapping ensure sharp peaks<br />
Aq<br />
Aq<br />
TMS<br />
TMS<br />
Ultra-pure Silica<br />
Ultra-pure Silica<br />
Material Characteristics<br />
Particle<br />
Shape/Size<br />
(µm)<br />
Pore<br />
Size<br />
(Å)<br />
Pore<br />
Volume<br />
(mL/g)<br />
Surface<br />
Area<br />
(m 2 /g)<br />
38 www.phenomenex.com international@phenomenex.com<br />
Phenomenex<br />
Carbon<br />
Load<br />
%<br />
Calculated<br />
Bonded Phase<br />
<strong>Co</strong>verage<br />
(μmole/m 2 )<br />
End<br />
Capping<br />
pH<br />
Ranges<br />
Packing Material<br />
USP<br />
Synergi Max-RP Spher. 2.5 100 — 400 17 — TMS 1.5-10.0<br />
Synergi Hydro-RP Spher. 2.5 100 — 400 19 — Hydrophilic 1.5-7.5 L1<br />
Synergi Polar-RP Spher. 2.5 100 — 400 11 — Hydrophilic 1.5-7.0 L11<br />
Synergi Fusion-RP Spher. 2.5 100 — 400 12 — TMS 1.5-10.0 L1<br />
Synergi Max-RP Spher. 4, 10 80 1.05 475 17 3.21 TMS — —<br />
Synergi Hydro-RP Spher. 4, 10 80 1.05 475 19 2.45 Hydrophilic — —<br />
Synergi Polar-RP Spher. 4, 10 80 1.05 475 11 3.15 Hydrophilic — —<br />
Synergi Fusion-RP Spher. 4, 10 80 1.05 475 12 N/A TMS — —
Synergi <br />
HPLC<br />
Fast LC Solutions<br />
Ordering Information<br />
2.5 µm High Speed Technology (HST) <strong>Co</strong>lumns (mm)<br />
Phases 30 x 2.0 50 x 2.0 100 x 2.0 50 x 3.0 100 x 3.0 50 x 4.6<br />
Max-RP<br />
Hydro-RP<br />
Polar-RP<br />
Fusion-RP<br />
00A-4372-B0<br />
00A-4387-B0<br />
00A-4371-B0<br />
00A-4423-B0<br />
00B-4372-B0<br />
00B-4387-B0<br />
00B-4371-B0<br />
00B-4423-B0<br />
00D-4372-B0<br />
00D-4387-B0<br />
00D-4371-B0<br />
00D-4423-B0<br />
00B-4372-Y0<br />
00B-4387-Y0<br />
00B-4371-Y0<br />
00B-4423-Y0<br />
00D-4372-Y0<br />
00D-4387-Y0<br />
00D-4371-Y0<br />
00D-4423-Y0<br />
00B-4372-E0<br />
00B-4387-E0<br />
00B-4371-E0<br />
00B-4423-E0<br />
For information about HST <strong>Co</strong>lumns, contact your Phenomenex technical consultant or local distributor.<br />
Ordering Information<br />
2.5 µm MercuryMS LC/MS Cartridges (mm) <strong>Co</strong>lumns (mm)<br />
Phases 10 x 2.0 10 x 4.0 20 x 2.0 20 x 4.0 20 x 2.0 20 x 4.0<br />
Max-RP 00N-4372-B0-CE 00N-4372-D0-CE 00M-4372-B0-CE 00M-4372-D0-CE 00M-4372-B0 00M-4372-D0<br />
Hydro-RP 00N-4387-B0-CE 00N-4387-D0-CE 00M-4387-B0-CE 00M-4387-D0-CE 00M-4387-B0 00M-4387-D0<br />
Polar-RP — 00N-4371-D0-CE 00M-4371-B0-CE 00M-4371-D0-CE 00M-4371-B0 00M-4371-D0<br />
Fusion-RP 00N-4423-B0-CE 00N-4423-D0-CE 00M-4423-B0-CE 00M-4423-D0-CE 00M-4423-B0 00M-4423-D0<br />
Mercury MS Cartridge Holders<br />
Ordering Information<br />
Direct-<strong>Co</strong>nnect Cartridge Holders<br />
Part No. Description<br />
CH0-7187 10 mm direct-connect holder<br />
CH0-7188 20 mm direct-connect holder<br />
Direct-<strong>Co</strong>nnect Holder<br />
Capillary <strong>Co</strong>lumns<br />
Standard Holder<br />
Standard Cartridge Holders<br />
Part No. Description<br />
CH0-5846 10 mm standard holder<br />
CH0-5845 20 mm standard holder<br />
Ordering Information<br />
4 μm Synergi Capillary <strong>Co</strong>lumns (mm)<br />
Phases 50 x 0.30 150 x 0.30 250 x 0.30 50 x 0.50 150 x 0.50 250 x 0.50<br />
Max-RP 00B-4337-AC 00F-4337-AC — — 00F-4337-AF 00G-4337-AF<br />
Hydro-RP 00B-4375-AC 00F-4375-AC 00G-4375-AC 00B-4375-AF 00F-4375-AF 00G-4375-AF<br />
Fusion-RP 00B-4424-AC 00F-4424-AC — 00B-4424-AF 00F-4424-AF 00G-4424-AF<br />
4 μm Synergi Capillary Guard <strong>Co</strong>lumns (mm)<br />
Phases 20 x 0.30 20 x 0.50<br />
Max-RP 03M-4337-AC 03M-4375-AF<br />
Hydro-RP 03M-4375-AC 03M-4375-AF<br />
Fusion-RP 03M-4424-AC —<br />
Analytical <strong>Co</strong>lumns<br />
Ordering Information<br />
4 µm Microbore and Minibore <strong>Co</strong>lumns (mm) SecurityGuard Cartridges (mm)<br />
Phases 50 x 1.0 150 x 1.0 250 x 1.0 30 x 2.0 50 x 2.0 75 x 2.0 150 x 2.0 250 x 2.0 4 x 2.0*<br />
/10pk<br />
Max-RP 00B-4337-A0 00F-4337-A0 — 00A-4337-B0 00B-4337-B0 00C-4337-B0 00F-4337-B0 00G-4337-B0 AJ0-6073<br />
Hydro-RP 00B-4375-A0 00F-4375-A0 00G-4375-A0 00A-4375-B0 00B-4375-B0 00C-4375-B0 00F-4375-B0 00G-4375-B0 AJ0-7510<br />
Polar-RP 00B-4336-A0 00F-4336-A0 — 00A-4336-B0 00B-4336-B0 00C-4336-B0 00F-4336-B0 00G-4336-B0 AJ0-6075<br />
Fusion-RP 00B-4424-A0 00F-4424-A0 — 00A-4424-B0 00B-4424-B0 00C-4424-B0 00F-4424-B0 00G-4424-B0 AJ0-7556<br />
for ID: 2.0-3.0 mm<br />
4 µm Narrow Bore <strong>Co</strong>lumns (mm) SecurityGuard Cartridges (mm)<br />
Phases 30 x 3.0 50 x 3.0 150 x 3.0 250 x 3.0 4 x 2.0*<br />
/10pk<br />
Max-RP 00A-4337-Y0 00B-4337-Y0 00F-4337-Y0 00G-4337-Y0 AJ0-6073<br />
Hydro-RP 00A-4375-Y0 00B-4375-Y0 00F-4375-Y0 00G-4375-Y0 AJ0-7510<br />
Polar-RP 00A-4336-Y0 00B-4336-Y0 00F-4336-Y0 00G-4336-Y0 AJ0-6075<br />
Fusion-RP 00A-4424-Y0 00B-4424-Y0 00F-4424-Y0 00G-4424-Y0 AJ0-7556<br />
for ID: 2.0-3.0 mm<br />
4 µm Analytical <strong>Co</strong>lumns (mm) SecurityGuard Cartridges (mm)<br />
Phases 30 x 4.6 50 x 4.6 75 x 4.6 150 x 4.6 250 x 4.6 4 x 3.0*<br />
/10pk<br />
Max-RP 00A-4337-E0 00B-4337-E0 00C-4337-E0 00F-4337-E0 00G-4337-E0 AJ0-6074<br />
Hydro-RP 00A-4375-E0 00B-4375-E0 00C-4375-E0 00F-4375-E0 00G-4375-E0 AJ0-7511<br />
Polar-RP 00A-4336-E0 00B-4336-E0 00C-4336-E0 00F-4336-E0 00G-4336-E0 AJ0-6076<br />
Fusion-RP 00A-4424-E0 00B-4424-E0 00C-4424-E0 00F-4424-E0 00G-4424-E0 AJ0-7557<br />
for ID: 3.2-8.0 mm<br />
Synergi Preparative columns are also available. Please contact your Phenomenex technical consultant or local Distributor.<br />
Phenomenex international@phenomenex.com www.phenomenex.com<br />
39
Luna ®<br />
HPLC<br />
One of the World’s Leading<br />
HPLC <strong>Co</strong>lumns<br />
Develop or Improve your HPLC Method<br />
• Exceptionally rugged USP phases<br />
• Easy method scalability with 3, 5, 10, 10-PREP and 15 μm medias<br />
• Extensive batch traceability and reproducibility data supplied with every column<br />
Material Characteristics<br />
Particle<br />
Shape/Size<br />
(μm)<br />
Pore<br />
Size<br />
(Å)<br />
Surface<br />
Area<br />
(m 2 /g)<br />
Carbon<br />
Load<br />
%<br />
Calculated Bonded<br />
Phase <strong>Co</strong>verage<br />
(µmole/m 2 )<br />
End<br />
Capping<br />
pH<br />
Stability<br />
Packing Material<br />
Luna Silica(2) Spher. 3, 5,10, 10-PREP, 15 100 400 0 – No 2.0 - 7.5<br />
Luna C5 Spher. 5,10 100 440 12.5 7.85 Yes 1.5 - 10*<br />
Luna C8(2) Spher. 3, 5,10, 10-PREP, 15 100 400 13.5 5.50 Yes 1.5 - 10*<br />
Luna C18(2) Spher. 2.5, 3, 5,10, 10-PREP, 15 100 400 17.5 3.00 Yes 1.5 - 10*<br />
Luna Phenyl-Hexyl Spher. 3, 5,10, 10-PREP, 15 100 400 17.5 4.00 Yes 1.5 - 10*<br />
Luna CN Spher. 3, 5, 10 100 400 7.0 3.80 Yes 1.5 - 7.0<br />
Luna NH 2<br />
Spher. 3, 5, 10 100 400 9.5 5.80 No 1.5 - 11<br />
Luna SCX Spher. 5,10 100 400 Binding Capacity: 0.15 meq/g No 2.0 - 7.0<br />
Luna HILIC Spher. 3, 5 200 200 5.7 4.30 No 1.5 - 8.0<br />
Luna PFP(2) Spher. 3, 5 100 400 11.5 2.20 Yes 1.5 - 8.0<br />
* pH range under isocratic conditions. pH range is 2 - 8 under gradient conditions.<br />
USP Phases for Virtually Every Application<br />
Luna Bonded Phase Selectivity Chart<br />
USP <strong>Co</strong>lumn<br />
Classification Phase Description <strong>Co</strong>mmon Applications<br />
L1<br />
L3<br />
L7<br />
L8<br />
L9<br />
L10<br />
L11<br />
L20<br />
L43<br />
C18(2) 2.5, 3, 5, 10, 10-PREP, 15 µm<br />
C18 phase. Excellent efficiency, peak shape and resolution. Slightly<br />
lower carbon load than original Luna C18.<br />
Silica(2) 3, 5, 10 µm<br />
Ultra-pure silica with high column bed stability enhanced by particle<br />
shape uniformity.<br />
C8(2) 3, 5, 10, 10-PREP, 15 µm<br />
C8 phase for excellent efficiency, peak shape and resolution.<br />
Significantly improved performance over traditional C8 phases due to<br />
high surface coverage.<br />
NH 2<br />
3, 5, 10 µm<br />
Amino phase. Can be used in reversed or normal phase modes.<br />
Stable from pH 1.5 to 11.0 and under 100% aqueous conditions.<br />
High performance silica and bonding techniques produces a rugged,<br />
highly reproducible column.<br />
SCX 5, 10 µm<br />
A Benzene Sulfonic Acid bonded phase is used to make this Strong<br />
Cation Exchange (SCX) column. Offers great peak shape and resolution.<br />
CN 3, 5, 10 µm<br />
Cyano phase. Can be used as reversed- or normal-phase material.<br />
The use of Luna base silica results in overall phase reproducibility and<br />
performance.<br />
Phenyl-Hexyl 3, 5, 10, 10-PREP, 15 µm<br />
A phenyl phase which employs a hexyl alkyl linker as opposed to the<br />
traditional propyl chain. Offers great stability as well as alternative<br />
selectivity.<br />
HILIC 3, 5 µm<br />
HILIC phase that provides excellent selectivity for polar compounds; and<br />
improved MS sensitivity with low bleed.<br />
PFP(2) 3, 5 µm<br />
A pentafluorophenyl phase that provides excellent selectivity for aromatic<br />
compounds from influence of flourine substitution on phenyl ring. Multiple<br />
retention mechanisms. Orthogonal selectivity to traditional C18 phases.<br />
Luna ® is a registered trademark of Phenomenex, Inc.<br />
Acetaminophen, Aspirin, Caffeine, Albuterol, Amitriptyline Hydrochloride,<br />
Amoxicillin, Atenolol, Cephalexin, Cephradine capsules, Chloramphenicol,<br />
<strong>Co</strong>rtisone Acetate, Dextromethorphan, Diphenhydramine, Pseudoephedrine,<br />
Dopamine, Estradiol, Guaifenesin, Ibuprofen, Sterile Imipenem, Imipramine,<br />
Lidocaine, Lorazepam, Minoxidil, Naproxen, Phenylephrine Hydrochloride,<br />
Phenylpropanolamine, Prednisone oral solution, Procainamide, Propoxyphene,<br />
Reserpine<br />
Alprazolam, Hydrocodone bitartrate, Hydrocortisone, Fat Soluble Vitamins,<br />
Phthalates, Fatty Acids, Lutein, Lycopene, Estradiol<br />
Doxepine, Doxylamine succinate, Fluoxetine, Glyburide, Ibuprofen Oral<br />
Suspension, Propranolol, Levonorgestrel, Ethinyl estradiol, Melengestrol<br />
acetate, Glucosamine<br />
Simple sugars, Carboplatin, Lactulose concentrate, Levocarnitine tablets<br />
<strong>Co</strong>ugh and cold compounds, Raclopride, Sodium Acetate, Erythromycin<br />
Benzalkonium Chloride, Nortriptyline HCl Capsules, Prednisolone, Tetracaine,<br />
Quinapril tablets<br />
Oxacillin, Captopril, Chlorpheniramine, Pseudoephedrine, Methadone<br />
Hydrochloride Oral <strong>Co</strong>ncentration<br />
Drug metabolites, Water soluble vitamins, Melamine, Cyanuric acid,<br />
Metanephrine, Normetanephrine<br />
Positional isomers, Geometric isomers, Taxanes, Aflatoxins<br />
Try Gemini ® -NX for even longer column lifetimes (see page 36-37).<br />
40 www.phenomenex.com international@phenomenex.com<br />
Phenomenex
Luna ®<br />
HPLC<br />
Ordering Information<br />
3 μm Microbore and Minibore columns (mm) SecurityGuard Cartridges (mm)<br />
Phases 30 x 2.0 50 x 2.0 100 x 2.0 150 x 2.0 4 x 2.0<br />
/10pk<br />
Silica(2) 00A-4162-B0 00B-4162-B0 00D-4162-B0 00F-4162-B0 AJ0-4347<br />
C8(2) 00A-4248-B0 00B-4248-B0 00D-4248-B0 00F-4248-B0 AJ0-4289<br />
C18(2) 00A-4251-B0 00B-4251-B0 00D-4251-B0 00F-4251-B0 AJ0-4286<br />
CN 00A-4254-B0 00B-4254-B0 00D-4254-B0 00F-4254-B0 AJ0-4304<br />
Phenyl-Hexyl 00A-4256-B0 00B-4256-B0 00D-4256-B0 00F-4256-B0 AJ0-4350<br />
NH 2<br />
00A-4377-B0 00B-4377-B0 00D-4377-B0 00F-4377-B0 AJ0-4301<br />
HILIC — 00B-4449-B0 00D-4449-B0 00F-4449-B0 AJ0-8328<br />
PFP(2) 00A-4447-B0 00B-4447-B0 00D-4447-B0 00F-4447-B0 AJ0-8326<br />
for ID: 2.0-3.0 mm<br />
5 μm Microbore and Minibore columns (mm) SecurityGuard Cartridges (mm)<br />
Phases 150 x 2.0 250 x 2.0 4 x 2.0*<br />
/10pk<br />
Silica(2) 00F-4274-B0 00G-4274-B0 AJ0-4347<br />
C5 00F-4043-B0 — AJ0-4292<br />
C8(2) 00F-4249-B0 00G-4249-B0 AJ0-4289<br />
C18(2) 00F-4252-B0 00G-4252-B0 AJ0-4286<br />
CN 00F-4255-B0 00G-4255-B0 AJ0-4304<br />
Phenyl-Hexyl 00F-4257-B0 00G-4257-B0 AJ0-4350<br />
NH 2<br />
00F-4378-B0 00G-4378-B0 AJ0-4301<br />
PFP(2) 00F-4448-B0 — AJ0-8326<br />
for ID: 2.0-3.0 mm<br />
3 μm Narrow Bore and analytical columns (mm) SecurityGuard Cartridges (mm)<br />
Phases 30 x 3.0 50 x 3.0 150 x 3.0 30 x 4.6 50 x 4.6 75 x 4.6 100 x 4.6 150 x 4.6 4 x 2.0 4 x 3.0<br />
/10pk<br />
/10pk<br />
Silica(2) — — 00F-4162-Y0 — 00B-4162-E0 — 00D-4162-E0 00F-4162-E0 AJ0-4347 AJ0-4348<br />
C8(2) 00A-4248-Y0 00B-4248-Y0 00F-4248-Y0 00A-4248-E0 00B-4248-E0 00C-4248-E0 00D-4248-E0 00F-4248-E0 AJ0-4289 AJ0-4290<br />
C18(2) 00A-4251-Y0 00B-4251-Y0 00F-4251-Y0 00A-4251-E0 00B-4251-E0 00C-4251-E0 00D-4251-E0 00F-4251-E0 AJ0-4286 AJ0-4287<br />
CN — 00B-4254-Y0 00F-4254-Y0 00A-4254-E0 00B-4254-E0 00C-4254-E0 00D-4254-E0 00F-4254-E0 AJ0-4304 AJ0-4305<br />
Phenyl-Hexyl — 00B-4256-Y0 00F-4256-Y0 00A-4256-E0 00B-4256-E0 00C-4256-E0 00D-4256-E0 00F-4256-E0 AJ0-4350 AJ0-4351<br />
NH 2<br />
— 00B-4377-Y0 00F-4377-Y0 — 00B-4377-E0 — 00D-4377-E0 00F-4377-E0 AJ0-4301 AJ0-4302<br />
HILIC — 00B-4449-Y0 00F-4449-Y0 — — — 00D-4449-E0 00F-4449-E0 AJ0-8328 AJ0-8329<br />
PFP(2) — 00B-4447-Y0 00F-4447-Y0 — 00B-4447-E0 — 00D-4447-E0 00F-4447-E0 AJ0-8326 AJ0-8327<br />
for ID: 2.0-3.0 mm<br />
3.2-8.0 mm<br />
5 μm Narrow Bore and analytical columns (mm) SecurityGuard Cartridges (mm)<br />
Phases 30 x 3.0 50 x 3.0 150 x 3.0 250 x 3.0 30 x 4.6 50 x 4.6 75 x 4.6 4 x 2.0* 4 x 3.0*<br />
/10pk<br />
/10pk<br />
Silica(2) — — — — — 00B-4274-E0 — AJ0-4347 AJ0-4348<br />
C5 — — 00F-4043-Y0 — — 00B-4043-E0 — AJ0-4292 AJ0-4293<br />
C8(2) — 00B-4249-Y0 00F-4249-Y0 00G-4249-Y0 00A-4249-E0 00B-4249-E0 00C-4249-E0 AJ0-4289 AJ0-4290<br />
C18(2) 00A-4252-Y0 00B-4252-Y0 00F-4252-Y0 00G-4252-Y0 00A-4252-E0 00B-4252-E0 00C-4252-E0 AJ0-4286 AJ0-4287<br />
CN — 00B-4255-Y0 00F-4255-Y0 00G-4255-Y0 00A-4255-E0 00B-4255-E0 00C-4255-E0 AJ0-4304 AJ0-4305<br />
Phenyl-Hexyl 00A-4257-Y0 00B-4257-Y0 00F-4257-Y0 00G-4257-Y0 00A-4257-E0 00B-4257-E0 00C-4257-E0 AJ0-4350 AJ0-4351<br />
NH 2<br />
— 00B-4378-Y0 00F-4378-Y0 00G-4378-Y0 00A-4378-E0 00B-4378-E0 00C-4378-E0 AJ0-4301 AJ0-4302<br />
SCX — — — — — 00B-4398-E0 — AJ0-4307 AJ0-4308<br />
HILIC — — 00F-4450-Y0 — — — — AJ0-8328 AJ0-8329<br />
PFP(2) — 00B-4448-Y0 00F-4448-Y0 — 00A-4448-E0 00B-4448-E0 — AJ0-8326 AJ0-8327<br />
for ID: 2.0-3.0 mm<br />
3.2-8.0 mm<br />
5 μm Analytical columns (mm) SecurityGuard Cartridges (mm)<br />
Phases 100 x 4.6 150 x 4.6 250 x 4.6 4 x 3.0*<br />
/10pk<br />
Silica(2) 00D-4274-E0 00F-4274-E0 00G-4274-E0 AJ0-4348<br />
C5 00D-4043-E0 00F-4043-E0 00G-4043-E0 AJ0-4293<br />
C8(2) 00D-4249-E0 00F-4249-E0 00G-4249-E0 AJ0-4290<br />
C18(2) 00D-4252-E0 00F-4252-E0 00G-4252-E0 AJ0-4287<br />
CN 00D-4255-E0 00F-4255-E0 00G-4255-E0 AJ0-4305<br />
Phenyl-Hexyl 00D-4257-E0 00F-4257-E0 00G-4257-E0 AJ0-4351<br />
NH 2<br />
00D-4378-E0 00F-4378-E0 00G-4378-E0 AJ0-4302<br />
SCX 00D-4398-E0 00F-4398-E0 00G-4398-E0 AJ0-4308<br />
HILIC 00D-4450-E0 00F-4450-E0 00G-4450-E0 AJ0-8329<br />
PFP(2) 00D-4448-E0 00F-4448-E0 00G-4448-E0 AJ0-8327<br />
for ID: 3.2-8.0 mm<br />
Method development column kits and<br />
method validation column kits are<br />
available. <strong>Co</strong>ntact Phenomenx or your<br />
local distributor for details.<br />
Luna Preparative columns are also<br />
available. <strong>Co</strong>ntact Phenomenex or your<br />
local distributor for more information<br />
about Axia Preparative <strong>Co</strong>lumns.<br />
*SecurityGuard Analytical Cartridges require holder, Part No.: KJ0-4282<br />
Phenomenex international@phenomenex.com www.phenomenex.com<br />
41
Lux ®<br />
Chiral<br />
HPLC Analysis<br />
Five Distinct Polysaccharide<br />
Phases to Resolve 92 % of<br />
Your Enantiomers*<br />
Lux columns offer a wide and complementary range of enantioselectivity<br />
for even the most difficult chiral separation projects.<br />
• High efficiency and loading capacity<br />
• Stable in Normal Phase, Polar Organic, SFC, and<br />
Reversed Phase <strong>Co</strong>nditions<br />
• 3 µm and 5 µm packed columns and 20 µm bulk media for<br />
scale up †<br />
C-1 C-2<br />
Technical Specifications<br />
Particle Size 3, 5, 20* µm<br />
pH Stability 2-9<br />
Maximum Pressure 300 bar<br />
Temperature Range 0-50 °C<br />
Shipping Solvent<br />
n-Hexane/2-propanol (9:1, v/v)<br />
†<br />
Please inquire for availability<br />
Lux chiral columns are made with high quality silica, and undergo<br />
a specialized coating and packing process that ensures high efficiencies<br />
while maintaining essential enantiorecognition abilities.<br />
H<br />
H<br />
C<br />
H<br />
H<br />
Lux Cellulose-1<br />
Cellulose tris(3,5-dimethylphenylcarbamate)<br />
C<br />
Cellulose-O-CONH<br />
H<br />
H<br />
C<br />
H<br />
H C H<br />
Cellulose-O-CONH<br />
C-1 C-1 C-2<br />
C-2<br />
C-3<br />
C-3<br />
C-4<br />
C-4<br />
H<br />
H<br />
H<br />
H<br />
C<br />
H<br />
H<br />
C<br />
H<br />
H<br />
H<br />
H<br />
C<br />
H<br />
H<br />
C<br />
H<br />
H<br />
H<br />
H C H<br />
Cl<br />
H<br />
H C H<br />
Cl<br />
H<br />
C<br />
H<br />
H<br />
C<br />
H<br />
H<br />
H<br />
H<br />
C<br />
Cl<br />
H<br />
H<br />
H<br />
C<br />
Cl<br />
H<br />
O<br />
O<br />
H<br />
C<br />
H<br />
Cellulose-O-CONH<br />
Cellulose-O-CONH Cellulose-O-CONH<br />
Cellulose-O-CONH<br />
Cellulose-O<br />
Cellulose-O<br />
Cellulose-O-CONH<br />
Cellulose-O-CONH Amylos<br />
Lux Cellulose-2<br />
Cellulose tris(3-chloro-4-methylphenylcarbamate)<br />
Lux Cellulose-3<br />
Cellulose tris(4-methylbenzoate)<br />
C-2 C-3<br />
C-3<br />
C-4<br />
C-4<br />
A-2<br />
A-2<br />
H<br />
H<br />
H<br />
H C H<br />
H C<br />
Cl<br />
H<br />
H<br />
C<br />
H<br />
C<br />
H<br />
H<br />
Cl<br />
H<br />
C<br />
H<br />
Cl<br />
Cl<br />
Cl<br />
H<br />
H<br />
H<br />
H<br />
O<br />
O<br />
H<br />
C<br />
H<br />
H<br />
C<br />
H<br />
Cellulose-O-CONH Cellulose-O<br />
Cellulose-O Cellulose-O-CONH<br />
Cellulose-O-CONH Amylose-O-CONH<br />
Amylose-O-CONH<br />
Lux Cellulose-4<br />
Cellulose tris(4-chloro-3-methylphenylcarbamate)<br />
Lux Amylose-2<br />
Amylose tris(5-chloro-2-methylphenylcarbamate)<br />
* Based on 233 compounds screened on all five Lux phases.<br />
42 www.phenomenex.com international@phenomenex.com<br />
Phenomenex
Lux ®<br />
Chiral<br />
HPLC Analysis<br />
Achieve Optimal Resolution by Screening all Five<br />
<strong>Co</strong>mplementary Lux Chiral <strong>Co</strong>lumns<br />
Utilizing differences in selectivity can help develop methods more efficiently<br />
by offering broad and contrasting chiral recognition abilities.<br />
Lux chiral selectors provide a variety of selectivities that give you the<br />
opportunity 19147 to screen for the ideal chiral separation.<br />
α = 1.06<br />
Etozolin<br />
19151 Lux 5 µm Cellulose-1<br />
α a = 1.06<br />
1.35<br />
1 2<br />
0 2 4 6 8 10 12 14 16 18 min<br />
Lux 5 µm Cellulose-4<br />
a = 1.35<br />
19146<br />
α = 1.45<br />
0 2 4 6 8 10 12 14 16 18 min<br />
Lux 5 µm Amylose-2<br />
a = 1.45<br />
19148<br />
α = 1.48<br />
1<br />
1<br />
2<br />
0 2 4 6 8 10 12 14 16 18 min<br />
Lux 5 µm Cellulose-2<br />
a = 1.48<br />
19152<br />
α = 1.70<br />
0 2 4 6 8 10 12 14 16 18 min<br />
2<br />
1<br />
2<br />
App ID 19148 App ID 19146<br />
App ID 19151 App ID 19147<br />
<strong>Co</strong>nditions for all columns:<br />
Dimensions: 250 x 4.6 mm<br />
Mobile Phase: Acetonitrile / 0.1 % Diethylamine in 20 mM NH 4<br />
HCO 3<br />
(60:40)<br />
Flow Rate: 1 mL/min<br />
Detection: UV @ 220 nm<br />
Temperature: Ambient<br />
N<br />
O<br />
S<br />
N<br />
O<br />
O<br />
Optimal Resolution<br />
1<br />
2<br />
Lux 5 µm Cellulose-3<br />
a = 1.70<br />
Based on a five phase screen under reversed phase<br />
conditions, the optimal chiral stationary phase for<br />
resolving Etozolin is Lux Cellulose-3.<br />
App ID 19152<br />
0 2 4 6 8 10 12 14 16 18 min<br />
<strong>Co</strong>mparative separations may not be representative of all applications.<br />
Phenomenex international@phenomenex.com www.phenomenex.com<br />
43
Lux ®<br />
Chiral<br />
HPLC Analysis<br />
Ordering Information<br />
3 µm Analytical <strong>Co</strong>lumns (mm) SecurityGuard Cartridges (mm)<br />
Phases 50 x 2.0 150 x 2.0 50 x 4.6 100 x 4.6 150 x 4.6 250 x 4.6 4 x 2.0* 4 x 3.0*<br />
/10pk<br />
/10pk<br />
Cellulose-1 00B-4458-B0 00F-4458-B0 00B-4458-E0 00D-4458-E0 00F-4458-E0 00G-4458-E0 AJ0-8402 AJ0-8403<br />
Cellulose-2 00B-4456-B0 00F-4456-B0 00B-4456-E0 00D-4456-E0 00F-4456-E0 00G-4456-E0 AJ0-8398 AJ0-8366<br />
Cellulose-3 00B-4492-B0 00F-4492-B0 00B-4492-E0 00D-4492-E0 00F-4492-E0 00G-4492-E0 AJ0-8621 AJ0-8622<br />
Cellulose-4 00B-4490-B0 00F-4490-B0 00B-4490-E0 00D-4490-E0 00F-4490-E0 00G-4490-E0 AJ0-8626 AJ0-8627<br />
Amylose-2 00B-4471-B0 00F-4471-B0 00B-4471-E0 00D-4471-E0 00F-4471-E0 00G-4471-E0 AJ0-8471 AJ0-8470<br />
for ID: 2.0 –3.0 mm 3.2–8.0 mm<br />
5 µm Analytical <strong>Co</strong>lumns (mm) SecurityGuard Cartridges (mm)<br />
Phases 50 x 2.0 50 x 4.6 100 x 4.6 150 x 4.6 250 x 4.6 4 x 2.0* 4 x 3.0*<br />
/10pk<br />
/10pk<br />
Cellulose-1 00B-4459-B0 00B-4459-E0 00D-4459-E0 00F-4459-E0 00G-4459-E0 AJ0-8402 AJ0-8403<br />
Cellulose-2 00B-4457-B0 00B-4457-E0 00D-4457-E0 00F-4457-E0 00G-4457-E0 AJ0-8398 AJ0-8366<br />
Cellulose-3 00B-4493-B0 00B-4493-E0 00D-4493-E0 00F-4493-E0 00G-4493-E0 AJ0-8621 AJ0-8622<br />
Cellulose-4 00B-4491-B0 00B-4491-E0 00D-4491-E0 00F-4491-E0 00G-4491-E0 AJ0-8626 AJ0-8627<br />
Amylose-2 00B-4472-B0 00B-4472-E0 00D-4472-E0 00F-4472-E0 00G-4472-E0 AJ0-8471 AJ0-8470<br />
for ID: 2.0–3.0 mm 3.2–8.0 mm<br />
5 µm Semi-Prep <strong>Co</strong>lumns (mm)<br />
SecurityGuard <br />
Cartridges (mm)<br />
Phases 150 x 10.0 250 x 10.0 10 x 10.0 ‡<br />
/3pk<br />
Cellulose-1 00F-4459-N0 00G-4459-N0 AJ0-8404<br />
Cellulose-2 00F-4457-N0 00G-4457-N0 AJ0-8399<br />
Cellulose-3 00F-4493-N0 00G-4493-N0 AJ0-8623<br />
Cellulose-4 00F-4491-N0 00G-4491-N0 AJ0-8628<br />
Amylose-2 00F-4472-N0 00G-4472-N0 AJ0-8472<br />
for ID: 9–16 mm<br />
20 µm Bulk Media<br />
Phases 100 g 1 kg<br />
Inquire<br />
Inquire<br />
Cellulose-1 04G-4473 04K-4473<br />
Cellulose-2 04G-4464 04K-4464<br />
Please inquire for 20 µm Lux Amylose-2, Cellulose-3 or<br />
Cellulose-4 media.<br />
Lux Preparative columns are also available. <strong>Co</strong>ntact<br />
Phenomenex or your local distributor for more<br />
information on AXIA Preparative <strong>Co</strong>lumns.<br />
Chiral Screening and Separation Services<br />
HPLC | SFC | Preparative | Training<br />
For more information on our services or to begin a project, please<br />
contact your local Phenomenex chiral expert or email us at:<br />
phenologix@phenomenex.com<br />
You can also visit us on the web at:<br />
www.phenomenex.com/phenologix<br />
44 www.phenomenex.com international@phenomenex.com<br />
Phenomenex
BioSep -SEC-S<br />
GFC<br />
Size Exclusion<br />
Chromatography<br />
Aqueous Size Exclusion/<br />
Gel Filtration for Protein and<br />
Peptide Analysis<br />
Gel Filtration Chromatography is used for the analysis and/or<br />
characterization of proteins, peptides and other biomolecules;<br />
including antibodies, immunoglobulins, protein complexes, protein<br />
aggregates, and desalting. BioSep GFC columns offer many<br />
important benefits for your separation needs.<br />
• Hydrophilically bonded rigid spherical silica gel has nominal<br />
adsorbtion and high sample recoveries<br />
• Narrow defined pore size distribution produces exceptional<br />
separations for SEC<br />
• Optimized packing specifications provide high resolution,<br />
maximized efficiencies, and exceptional peak asymmetry<br />
Batch-to-Batch Reproducibility<br />
Batch-to-batch and column-to-column reproducibility is imperative.<br />
Each batch of BioSep media is carefully monitored and QC<br />
tested to ensure proper size, shape and pore characteristics,<br />
which ensures the same high quality separation time and time<br />
18897<br />
again.<br />
mAU<br />
200<br />
150<br />
5<br />
6<br />
7<br />
8<br />
Molecular Weight Separation Range for Proteins on BioSep-SEC-S<br />
3 BioSep phase options to separate samples of varying molecular<br />
weight (MW) ranges: 2000, 3000, 4000, as described below:<br />
100<br />
3 Separate<br />
Batches Overlaid<br />
3<br />
4<br />
Under<br />
6 M GnHCI<br />
Under<br />
0.5 % SDS<br />
S-4000 5,000 - 700,000<br />
S-3000 1,000 - 150,000<br />
S-2000 500 - 100,000<br />
S-2000 200 - 75,000<br />
S-4000 15,000 - 500,000<br />
S-3000 5,000 - 100,000<br />
50<br />
2<br />
1<br />
0<br />
0 2 4 6 8 10 12 14 min<br />
App ID 18897<br />
Native<br />
S-4000 15,000 - 1,500,000<br />
S-3000 5,000 - 700,000<br />
S-2000 1,000 - 300,000<br />
102 103 104 105 106 107<br />
Molecular Weight (Daltons)<br />
High Efficiencies for Greater Resolution<br />
Due to a tight particle size distribution and a specialized packing<br />
process and specifications, you will see greater baseline separation<br />
between your analytes.<br />
App ID 18927<br />
Highly Inert Material for Better Recovery<br />
and Quantitation<br />
BioSep columns experience a nominal amount of non-specific interactions<br />
which provides an extremely inert media demonstrating<br />
distinct advantages for accurate quantitation of your proteins<br />
18966<br />
and aggregates.<br />
Human Serum under Different Mobile Phases<br />
Efficiency<br />
(minimum number theoretical plates on 300 x 7.8 mm column)<br />
1. Mobile phase containing NaCl<br />
SEC-s2000<br />
30,000<br />
Plates<br />
SEC-s3000<br />
30,000<br />
Plates<br />
SEC-s4000<br />
25,000<br />
Plates<br />
2. Mobile phase containing Arginine<br />
3. Mobile phase without Arginine<br />
App ID 18966<br />
0 2<br />
4 6 8 10 12 14 min<br />
Equal recovery of proteins and aggregates under different mobile phase conditions is<br />
indicative of a highly inert column.<br />
Phenomenex international@phenomenex.com www.phenomenex.com<br />
45
BioSep -SEC-S<br />
GFC<br />
Size Exclusion<br />
Chromatography<br />
Low MW Proteins and Peptides on<br />
BioSep-SEC-s2000<br />
BioSep-SEC-s2000 columns are used for peptide therapeutics,<br />
small proteins, PEGylated peptides and small PEGylated proteins,<br />
as well as biogeneric aggregate applications.<br />
Medium MW Proteins on<br />
BioSep-SEC-s3000<br />
BioSep-SEC-s3000 columns are great for medium to large MW<br />
proteins, serum proteins, and immunoglobulin aggregate and<br />
applications.<br />
Low MW Protein and Peptide Mixture<br />
<strong>Co</strong>lumn: BioSep-SEC-s2000<br />
Dimensions: 300 x 7.8 mm<br />
Part No.: 00H-2145-K0<br />
Mobile 45 % Acetonitrile, 0.1 % TFA<br />
Phase:<br />
Flow Rate: 1 mL/min<br />
Temperature: Ambient<br />
18945<br />
Detection: UV @ 214 nm<br />
Sample:<br />
Protein Mixture<br />
<strong>Co</strong>lumn: BioSep-SEC-s3000<br />
Dimensions: 300 x 7.8 mm<br />
18928<br />
Part No.: 00H-2146-K0<br />
Mobile Phase: 100 mM Sodium Phosphate pH 7.0,<br />
300 mM Sodium Chloride<br />
Flow Rate: 1 mL/min<br />
Temperature: Ambient<br />
1<br />
Detection: UV @ 280 nm<br />
Sample: 1. Thyroglobulin 669 kDa<br />
2. lgG 156 kDa<br />
3. BSA 66 kDa<br />
4. Ovalbumin 45 kDa<br />
5. Myoglobin 16.9 kDa<br />
6. Uridine 244 Da<br />
5<br />
6<br />
3<br />
4<br />
14. L-Glutathione 307 Da<br />
13. Leu-Leu-Leu 358 Da<br />
2<br />
12. Bradykinin 1-5 573 Da<br />
11. Bradykinin 1-7 760 Da<br />
10. Angiotensin 1-7 899 Da<br />
9. Angiotensin II 1046 Da<br />
8. Bradykinin 1060 Da<br />
7. Substance P 1-9 1104 Da<br />
6. Angiotensin I 1297 Da<br />
5. Glucagon 3482 Da<br />
App ID 18928<br />
4. Insulin 5700 Da<br />
3. Apotinin 6500 Da<br />
2. Cytochrome c 12400 Da<br />
1. Myoglobin 17800 Da<br />
App ID 18945<br />
4 6 8 10 12<br />
min<br />
0 2 4 6 8 10<br />
Protein Separation of 50-300,000 MW on BioSep-SEC-s2000<br />
vs. TSKgel ® G2000SW XL<br />
<strong>Co</strong>nditions for both columns:<br />
<strong>Co</strong>lumns: BioSep-SEC-s2000<br />
TSKgel ® G2000SW XL<br />
Dimensions: 300 x 7.8 mm<br />
18892 Mobile 10 mM Tris pH 7.4,<br />
Phase: 150 mM Sodium Chloride<br />
Flow Rate: 0.6 mL/min<br />
mAU<br />
400<br />
300<br />
All four proteins<br />
are resolved<br />
<strong>Co</strong>nditions for both columns:<br />
Temperature: Ambient<br />
Detection: UV @ 214 nm<br />
Sample: 1. Hu IgA 300 kDa<br />
2. b-Amylase 200 kDa<br />
3. BSA 66 kDa<br />
4. Ovalbumin 45 kDa<br />
1<br />
2<br />
3<br />
4<br />
BioSep-SEC-s2000<br />
min<br />
Large MW Proteins on<br />
BioSep-SEC-s4000<br />
BioSep-SEC-s4000 is capable of resolving large MW proteins<br />
and PEGylated IgG applications.<br />
High MW Protein Mixture<br />
<strong>Co</strong>lumn: BioSep-SEC-s4000<br />
Dimensions: 300 x 7.8 mm<br />
Part No.: 00H-2147-K0<br />
Mobile 100 mM Sodium Phosphate pH 7.0,<br />
Phase: 300 mM Sodium Chloride<br />
Flow Rate: 1 mL/min<br />
Temperature: Ambient<br />
Detection: UV @ 214 nm<br />
Sample: 1. HMW impurity<br />
18936<br />
2. lgM 900 kDa<br />
3. Thyroglobulin 669 kDa<br />
4. lgA 300 kDa<br />
5. b-Amylase 200 kDa<br />
6. BSA 66 kDa<br />
7. Ribonuclease A 13.7 kDa<br />
8. Uridine 244 Da<br />
5<br />
6<br />
7<br />
8<br />
200<br />
1,2<br />
3<br />
TSKgel ®<br />
G2000SW XL<br />
3<br />
4<br />
100<br />
<strong>Co</strong>-migration<br />
of peaks 1 & 2<br />
4<br />
App ID 18892<br />
1<br />
2<br />
App ID 18936<br />
0<br />
0 5 10 15<br />
min<br />
0 2 4 6 8 10 12<br />
14<br />
min<br />
46 www.phenomenex.com international@phenomenex.com<br />
Phenomenex
BioSep -SEC-S<br />
GFC<br />
Size Exclusion<br />
Chromatography<br />
• Global support and availability in over 65 countries<br />
• 3 batches available for validation<br />
• Large inventory for immediate shipment<br />
Technical Data and Specifications<br />
BioSep SEC-s2000 BioSep SEC-s3000 BioSep SEC-s4000<br />
Resin Type Silica Silica Silica<br />
Particle Size (µm) 5 5 5<br />
Pore Size (Å) 145 290 500<br />
pH Range 2.5 - 7.5 2.5 - 7.5 2.5 - 7.5<br />
Maximum Backpressure (psi) 1,500 1,500 1,500<br />
Typical Backpressure (psi) 800 800 700<br />
Efficiency<br />
30,000 30,000 25,000<br />
(minimum number theoretical plates 300 x 7.8 mm)<br />
Maximum Flow Rate<br />
This is a function of pressure. <strong>Co</strong>lumns can withstand up to 1,500 psi, but avoid sudden pressure changes.<br />
<strong>Co</strong>lumn Hardware<br />
Standard: 316 stainless steel column with stainless steel frits. Titanium frits available.<br />
Maximum Temp.<br />
50 ˚C<br />
Maximum Salt <strong>Co</strong>nc.<br />
1 M<br />
Denaturants<br />
0.5 % SDS, 6 M Guanidine HCI, or 8 M urea<br />
Regeneration<br />
After exposure to denaturants, wash with water overnight.<br />
Max. Organic Modifier<br />
Up to 100 % CH 3<br />
CN. Start with 100 % H 2<br />
O, linear gradient to 100 % CH 3<br />
CN over 50 min.<br />
Up to 90 % CH 3<br />
CN, 10 % DMSO or 500 mM b-mercaptoethanol.<br />
Cleaning Procedure General protein removal: wash with 30 mL of 0.1 M NaH 2<br />
P0 4<br />
, pH 3.0.<br />
Hydrophobic protein removal: use acetonitrile gradient.<br />
Strongly adsorbed proteins: wash with 30 mL of 0.5 % SDS or 6 M Guanidine thiocyanate or 10 % DMSO.<br />
Storage Overnight storage: run mobile phase at 0.2 mL/minute. Prolonged storage: use 0.05 % NaN 3<br />
in H 2<br />
O or 10 % methanol in H 2<br />
0.<br />
<strong>Co</strong>lumn Protection<br />
Use of a SecurityGuard is recommended to prolong column lifetime.<br />
Cross Reference Chart<br />
Phenomenex<br />
Waters ®<br />
BioSep Phases TSK-Gel ® Shodex ® Sepax Bio-Rad ® BioSuite Zorbax ®<br />
SEC-s2000 G2000SW PROTEIN KW-802.5 SRT ® -100* Bio-Sil ® SEC 125 BioSuite 125 GF-250<br />
G2000SW XL<br />
SEC-s3000<br />
SEC-s4000<br />
SRT ® -150<br />
G3000SW PROTEIN KW-803 SRT ® -300 Bio-Sil ® SEC 250 BioSuite 250 GF-450<br />
G3000SW XL<br />
G4000SW PROTEIN KW-804 SRT ® -500** Bio-Sil ® SEC 400 BioSuite 450**<br />
G4000SW XL<br />
** Only up to 1,500,000 MW<br />
* Only above 1,000 MW<br />
Ordering Information<br />
*SecurityGuard Analytical cartridges require holder, Part No.: KJ0-4282<br />
** PREP SecurityGuard Cartridges require holder, Part No.: AJ0-8223<br />
Stainless Steel <strong>Co</strong>lumns (mm): Narrow Bore Analytical Preparative SecurityGuard Cartridges (mm)<br />
Phases 300 x 4.6 300 x 7.8 600 x 7.8 300 x 21.2 4 x 3.0* 15 x 21.2**<br />
/10pk<br />
ea<br />
BioSep-SEC-s2000 00H-2145-E0 00H-2145-K0 00K-2145-K0 00H-2145-P0 AJ0-4487 AJ0-8588<br />
BioSep-SEC-s3000 00H-2146-E0 00H-2146-K0 00K-2146-K0 00H-2146-P0 AJ0-4488 AJ0-8589<br />
BioSep-SEC-s4000 00H-2147-E0 00H-2147-K0 00K-2147-K0 00H-2147-P0 AJ0-4489 AJ0-8590<br />
for ID: 4.6-7.8 mm for ID: 21.2 mm<br />
Stainless Steel Guard <strong>Co</strong>lumns (mm) Narrow Bore Express Analytical<br />
Phases 30 x 4.6 35 x 7.8 75 x 7.8<br />
BioSep-SEC-s2000 03A-2145-E0 03Q-2145-K0 03C-2145-K0<br />
BioSep-SEC-s3000 03A-2146-E0 03Q-2146-K0 03C-2146-K0<br />
BioSep-SEC-s4000 03A-2147-E0 03Q-2147-K0 03C-2147-K0<br />
Aqueous SEC 1 <strong>Co</strong>lumn Check Standard<br />
(for BioSep-SEC-S and other protein SEC columns)<br />
Part No.: AL0-3042<br />
Unit quantity: Dry; reconstituted to 2 mL<br />
<strong>Co</strong>ntains: Bovine thyroglobulin; Human gamma globulin;<br />
Ovalbumin; Myoglobin; Uridine (reconstitute<br />
with 1 mL of 100 mM Sodium phosphate pH 6.8)<br />
Diluent: 100 mM Sodium phosphate pH 6.8<br />
Storage: Add 0.1 % NaN 3<br />
to the solution and refrigerate<br />
Test <strong>Co</strong>nditions<br />
Mobile phase: 100 mM Sodium phosphate, pH 6.8<br />
Flow rate: 1.0 mL/min for a 300 x 7.8 mm column<br />
Injection volume: 10 µL<br />
Detection: UV @ 280 nm<br />
Other column dimensions available upon request.<br />
Phenomenex international@phenomenex.com www.phenomenex.com<br />
47
Jupiter ®<br />
HPLC<br />
Proteins/Peptides<br />
RP-HPLC for Protein/Peptide Analysis<br />
and Purification<br />
The Jupiter HPLC column portfolio, including Jupiter 300 and Jupiter Proteo, offers optimized<br />
reversed phase solutions for protein and peptide characterization and purification. With these columns,<br />
one can identify, purify, and analyze almost any protein.<br />
Jupiter 300 – 300 Å columns designed to analyze and purify intact proteins<br />
• For separation of intact proteins > 10,000 MW<br />
• Available with C18, C5, and C4 bonded phases<br />
• 1.5 – 10 pH stability for method ruggedness and easy protein removal<br />
• Direct scale-up to preparative and bulk materials<br />
Jupiter Proteo – 90 Å columns engineered for increased peak capacity and resolution of<br />
peptide maps as well as peptide separations<br />
• For separation of intact proteins and peptides < 10,000 MW<br />
• Available with novel C12 bonded phase for excellent selectivity<br />
• Identify post-translational modifications<br />
• Capillary columns available for increased sensitivity<br />
Material Characteristics<br />
Particle<br />
Shape/Size<br />
(μm)<br />
Pore<br />
Size<br />
(Å)<br />
Surface<br />
Area<br />
(m 2 /g)<br />
Carbon<br />
Load<br />
%<br />
Calculated Bonded<br />
Phase <strong>Co</strong>verage<br />
(µmole/m 2 )<br />
End<br />
Capping<br />
Packing Material<br />
C4 Spher. 5, 10, 15 300 170 5.0 6.30 Yes<br />
C5 Spher. 5, 10, 15 300 170 5.5 5.30 Yes<br />
C18 Spher. 3, 5, 10, 15 300 170 13.3 5.50 Yes<br />
Proteo Spher. 4, 10 90 475 15.0 — Yes<br />
Dependable Solutions for Protein/Peptide Researchers<br />
Jupiter HPLC columns are used throughout the life science industry in a variety of departments.<br />
Phenomenex offers support and solutions in all areas of protein research and manufacturing,<br />
especially in characterization, purification, and proteomics/biomarker discovery.<br />
Type of Work<br />
Protein Characterization<br />
Protein/ Peptide Purification<br />
Proteomics/ Biomarker Discovery<br />
<strong>Key</strong> Applications<br />
• Identify post-translational modifications<br />
• Analyze intact antibodies<br />
• Study PEGylated proteins<br />
• Separate target compound from impurities<br />
• Purify antibodies<br />
• Separate protein components from one another<br />
• Easy, direct scale up to preparative and process scales<br />
• Perform peptide mapping for differential proteomics<br />
• Identify low level proteins utilizing capillary columns<br />
• Excellent resin for 2nd dimension of 2D-HPLC<br />
48 www.phenomenex.com international@phenomenex.com<br />
Phenomenex
Jupiter ®<br />
HPLC<br />
Proteins/Peptides<br />
Jupiter 300 – for Intact Protein<br />
Separation and Purification<br />
Jupiter 300 has proven its performance to biochromatographers<br />
worldwide as a leading 300 Å column in the market.<br />
• 300 Å column for analysis and purification of proteins<br />
> 10,000 MW<br />
• Highly efficient columns with long lifetime due to<br />
super-smooth, high-mechanical-strength 300 Å silica<br />
• Excellent column for LC/MS due to low phase bleed and<br />
exceptional performance at low buffer concentrations<br />
Large Proteins on Jupiter 300 C4<br />
<strong>Co</strong>lumn: Jupiter 300 5 μm C4 300Å<br />
Dimensions: 150 x 4.6 mm<br />
Part No.: 00F-4167-E0<br />
Mobile Phase: A: 0.1 % TFA in Water<br />
B: 0.08 % TFA in Acetonitrile<br />
Gradient: A/B (95:5) to A/B (20:80) in 20 minutes<br />
Flow Rate: 1 mL/min<br />
Temperature: 22 ˚C<br />
Detection: UV @ 280 nm<br />
Inj. Volume: 25 μL<br />
Sample: 1. Bovine Serum Albumin<br />
2. Glutamic Dehydrogenase<br />
3. ß-Galactosidase<br />
4. Ovalbumin<br />
1<br />
3<br />
Selecting the Appropriate 300 Å Phase<br />
Jupiter 300 C4 This low hydrophobicity phase is less likely to<br />
cause irreversible adsorption of “sticky” proteins and allows for<br />
the use of shallow gradients along with lower concentrations of<br />
organic solvent.<br />
• For proteins >10,000 Da<br />
• For highly hydrophobic proteins<br />
Jupiter 300 C5 This bonded phase imparts greater pH stability<br />
compared to traditional C4 phase. One can expect longer column<br />
lifetimes and more stable, reproducible retention times because<br />
of the bonded phase’s increased stability to hydrolysis.<br />
• For proteins >10,000 Da<br />
• For highly hydrophobic proteins<br />
• More retentive than C4, offering slightly different selectivity<br />
Separation on Jupiter 300 C18<br />
<strong>Co</strong>lumn: Jupiter 300 5 µm C18 300 Å<br />
Dimensions: 150 x 2.0 mm<br />
Part No.: 00F-4053-B0<br />
Mobile Phase: A: 0.1 %TFA/ 95 % Water / 5 % Acetonitrile<br />
B: 0.085 % TFA/ 95 % Acetonitrile/ 5 % Water<br />
Gradient: A/B (88:12) to A/B (15:85) in 21 minutes<br />
Flow Rate: 0.2 mL/min<br />
Detection: UV @ 220 nm<br />
mAU<br />
Sample: 1. Aprotinin<br />
800<br />
2. Ribonuclease<br />
600<br />
3. Lysozyme<br />
1<br />
4. Lactalbumin<br />
400<br />
5. Leptin<br />
200<br />
2<br />
2<br />
4<br />
3 4<br />
App ID 14761<br />
5<br />
App ID 14937<br />
Jupiter 300 C18 Excellent for polar as well as non-polar proteins;<br />
most retentive of Jupiter 300 phases, allowing one to separate<br />
proteins with slight differences in hydrophobicity<br />
• For proteins >10,000 Da<br />
• For hydrophilic proteins<br />
• Most retentive phase<br />
0<br />
0 2 4 6 8 10 12 14 16 18 min<br />
Sharp Peaks and High Yields<br />
Ultra-pure silica and dense bonded phase coverage provide sharp<br />
peaks for your sample by decreasing the number of non-specific<br />
interactions. Sharpened peak symmetry allows for easier quantitation,<br />
improved resolution, and separation of complex mixtures.<br />
High yields result in more material for downstream analysis, decreased<br />
number of purification runs, and lower production costs.<br />
Sharp Peaks for Easy Quantitation<br />
<strong>Co</strong>lumn: Jupiter 300 5 µm C4 300 Å<br />
Dimensions: 50 x 4.6 mm<br />
Part No.: 00B-4167-E0<br />
Mobile Phase: A: 0.1% TFA in Water<br />
B: 0.1% TFA in Acetonitrile<br />
Gradient: A/B (100:0) to A/B (80:20) in 1 min<br />
(20 % B/ min), then to A/B (65:35) in<br />
1.5 min (10 % B/ min), then to A/B<br />
(53.5:46.5) in 1.5 min (7.67 % B/ min),<br />
hold for 2 min (constant B)<br />
Flow Rate: 1 mL/min<br />
Detection: UV @ 220 nm<br />
Sample: 1. Alkaline Phosphatase<br />
2. Cyanocobalamin<br />
3. RNase<br />
4. Insulin<br />
5. Transferrin<br />
6. Trypsin Inhibitor<br />
App ID 5378<br />
2.5 5 7.5 min 10 12.5<br />
Phenomenex international@phenomenex.com www.phenomenex.com<br />
49
Jupiter ®<br />
Jupiter Proteo – for Peptide<br />
Mapping and Peptide<br />
Purification<br />
Separating peptide fragments by reversed phase chromatography<br />
is a standard method of protein analysis and is used to<br />
develop well-characterized biopharmaceuticals. In an effort to<br />
support proteomic research and the growth of the synthetic<br />
peptide industry, we have engineered a column with a sorbent<br />
and surface chemistry that successfully leverages the physical<br />
and chemical properties of polypeptides.<br />
• Novel 90 Å, C12 bonded phase optimized for peptide<br />
mapping and the separation of synthetic peptides<br />
• Identify oxidation, deamidation, and other posttranslational<br />
modifications<br />
• Resolve peptides differing in hydrophobicity by one<br />
methyl group<br />
Identify More Peaks in Peptide Maps with Increased Peak<br />
Capacity<br />
Jupiter Proteo is designed to selectively separate and to optimize<br />
information on peptide fragments obtained in a protein<br />
digest. In the example, a Jupiter Proteo column offers better<br />
selectivity and resolving power compared with a commercial<br />
300 Å, silica-based C18 reversed phase column.<br />
Myoglobin Tryptic Digest<br />
<strong>Co</strong>nditions for all columns:<br />
Dimensions: 250 x 4.6 mm<br />
Mobile Phase: A: 0.012 % TFA in Water<br />
B: 0.01 % TFA in Acetonitrile<br />
Gradient: A/B (95:5) for 5 min, then to A/B<br />
(60:40) in 55 minutes<br />
Flow Rate: 1 mL/min<br />
Temperature: 22 °C<br />
Detection: UV @ 210 nm<br />
Sample: Myoglobin Tryptic Digest<br />
Jupiter ® 4 μm Proteo 90 Å<br />
1 2 3 4<br />
Avg.<br />
118 72 71 49<br />
78<br />
78<br />
peaks<br />
Selectivity to Improve Resolution<br />
Jupiter Proteo can be used to resolve peptides of MW<br />
< 10,000 Da and often is able to separate peptides of only<br />
1-2 amino acid difference. By comparing the resolution of<br />
five peptide standards with amino acid sequences that differ<br />
in hydrophobicity by one methyl group each with respect to<br />
efficiency, selectivity, and resolution it is evident that Jupiter<br />
Proteo fully resolves each peptide.<br />
Methylene Selectivity<br />
HPLC<br />
Proteins/Peptides<br />
<strong>Co</strong>nditions for all columns:<br />
Dimensions: 250 x 4.6 mm<br />
Mobile Phase: A: 0.1 % TFA in Water<br />
B: 0.085 % TFA in Acetonitrile<br />
Gradient: A/B (95:5) to<br />
A/B (55:45) in 20 minutes<br />
Flow Rate: 1 mL/min<br />
Temperature: 22 °C<br />
Detection: UV @ 214 nm<br />
Sample: 1. NH2-Arg-Gly-Gly-Ala-Gly-Gly-Leu-Gly-Leu-Gly-Lys-Amide<br />
2. Ac-Arg-Gly-Gly-Gly-Gly-Gly-Leu-Gly-Leu-Gly-Lys-Amide<br />
3. Ac-Arg-Gly-Ala-Gly-Gly-Gly-Leu-Gly-Leu-Gly-Lys-Amide<br />
4. Ac-Arg-Gly-Val-Gly-Gly-Gly-Leu-Gly-Leu-Gly-Lys-Amide<br />
5. Ac-Arg-Gly-Val-Val-Gly-Gly-Leu-Gly-Leu-Gly-Lys-Amide<br />
Jupiter ® 4 μm Proteo 90 Å<br />
Agilent Technologies Zorbax ® 5 μm SB-C18 300 Å<br />
Alltech Associates Vydac ® 5 μm MS54 300 Å<br />
Alltech Associates Vydac ® 5 μm TP54 300 Å<br />
App ID 14429 App ID 14428<br />
App ID 14427<br />
App ID 14426<br />
Agilent Technologies Zorbax ® 5 μm<br />
SB-C18 300 Å<br />
1 2 3 4<br />
Avg.<br />
54 51 50 35<br />
48<br />
48<br />
peaks<br />
App ID 14411 App ID 14408<br />
Determining peak counts - The large number of peaks in a given tryptic digest<br />
makes counting peaks visually both inaccurate and subjective. For a more<br />
accurate approach, peak counting was performed using Agilent Technologies (HP)<br />
ChemStation software. Four different integration parameters at different sensitivity<br />
settings were used in calculating the number of peaks and an average. The<br />
parameters changed within each method were: minimum peak area, minimum peak<br />
height, peak width, and threshold. The table below describes the parameters used<br />
for each calculation.<br />
Method Threshold Peak Width Min Area Min Height<br />
1 1.0 0.1 10.0 20.0<br />
2 2.0 0.2 10.0 20.0<br />
3 3.0 0.3 20.0 10.0<br />
4 3.0 0.3 20.0 50.0<br />
50 www.phenomenex.com international@phenomenex.com<br />
Phenomenex
Jupiter ®<br />
HPLC<br />
Proteins/Peptides<br />
Ordering Information<br />
4 μm & 5 μm Capillary <strong>Co</strong>lumns (mm) Capillary Guard <strong>Co</strong>lumns (mm)<br />
Phases 50 x 0.30 150 x 0.30 250 x 0.30 50 x 0.50 150 x 0.50 250 x 0.50 20 x 0.30 20 x 0.50<br />
5 μm C4 300 Å 00B-4167-AC 00F-4167-AC 00G-4167-AC 00B-4167-AF 00F-4167-AF — 03M-4167-AC 03M-4167-AF<br />
5 μm C18 300 Å 00B-4053-AC 00F-4053-AC 00G-4053-AC 00B-4053-AF 00F-4053-AF 00G-4053-AF 03M-4053-AC 03M-4053-AF<br />
4 μm Proteo 90 Å 00B-4396-AC 00F-4396-AC 00G-4396-AC 00B-4396-AF 00F-4396-AF 00G-4396-AF 03M-4396-AC —<br />
3 μm, 4 μm & 5 μm Microbore and Minibore <strong>Co</strong>lumns (mm) SecurityGuard Cartridges (mm)<br />
Phases 50 x 1.0 150 x 1.0 250 x 1.0 50 x 2.0 150 x 2.0 250 x 2.0 4 x 2.0*<br />
/10pk<br />
5 μm C4 300 Å 00B-4167-A0 00F-4167-A0 00G-4167-A0 00B-4167-B0 00F-4167-B0 00G-4167-B0 AJ0-4329<br />
5 μm C5 300 Å 00B-4052-A0 00F-4052-A0 00G-4052-A0 00B-4052-B0 00F-4052-B0 00G-4052-B0 AJ0-4326<br />
5 μm C18 300 Å 00B-4053-A0 00F-4053-A0 00G-4053-A0 00B-4053-B0 00F-4053-B0 00G-4053-B0 AJ0-4320<br />
4 μm Proteo 90 Å 00B-4396-A0 00F-4396-A0 00G-4396-A0 00B-4396-B0 00F-4396-B0 00G-4396-B0 AJO-6073<br />
— — — — /10pk<br />
3 μm C18 300 Å — — — 00B-4263-B0 00F-4263-B0 — AJ0-4320<br />
for ID: 2.0-3.0 mm<br />
3 μm, 4 μm & 5 μm Analytical and Preparative <strong>Co</strong>lumns (mm) SecurityGuard Cartridges (mm)<br />
Phases 50 x 4.6 150 x 4.6 250 x 4.6 250 x 10 250 x 21.2 4 x 3.0* 10 x 10 ‡ 15 x 21.2**<br />
/10pk /3pk /ea<br />
5 μm C4 300 Å 00B-4167-E0 00F-4167-E0 00G-4167-E0 00G-4167-N0 00G-4167-P0 AJ0-4330 AJ0-7225 AJ0-7231<br />
5 μm C5 300 Å 00B-4052-E0 00F-4052-E0 00G-4052-E0 00G-4052-N0 00G-4052-P0 AJ0-4327 AJ0-7371 —<br />
5 μm C18 300 Å 00B-4053-E0 00F-4053-E0 00G-4053-E0 00G-4053-N0 00G-4053-P0 AJ0-4321 AJ0-7224 AJ0-7230<br />
4 μm Proteo 90 Å 00B-4396-E0 00F-4396-E0 00G-4396-E0 00G-4396-N0 00G-4396-P0 AJ0-6074 AJ0-7275 AJ0-7842<br />
— — — /10pk — —<br />
3 μm C18 300 Å — 00F-4263-E0 00G-4263-E0 — — AJ0-4321 — —<br />
for ID: 3.2-8.0 mm 9-16 mm 18-29 mm<br />
10 μm Analytical and Preparative <strong>Co</strong>lumns (mm) SecurityGuard Cartridges (mm)<br />
Phases 250 x 4.6 250 x 10 250 x 21.2 250 x 30 250 x 50 4 x 3.0* 10 x 10 ‡ 15 x 21.2** 15 x 30.0 ♦<br />
/10pk /3pk /ea /ea<br />
C4 300 Å 00G-4168-E0 00G-4168-N0 00G-4168-P0 00G-4168-U0 00G-4168-V0 AJ0-4330 AJ0-7225 AJ0-7231 AJ0-8314<br />
C5 300 Å 00G-4054-E0 00G-4054-N0 00G-4054-P0 — 00G-4054-V0 AJ0-4327 AJ0-7371 — —<br />
C18 300 Å 00G-4055-E0 00G-4055-N0 00G-4055-P0 00G-4055-U0 00G-4055-V0 AJ0-4321 AJ0-7224 AJ0-7230 AJ0-8313<br />
Proteo 90 Å 00G-4397-E0 00G-4397-N0 — — — AJ0-6074 AJ0-7275 AJ0-7842 AJ0-8304<br />
for ID: 3.2-8.0 mm 9-16 mm 18-29 mm 30-49 mm<br />
15 μm Analytical and Preparative <strong>Co</strong>lumns (mm) SecurityGuard Cartridges (mm)<br />
Phases 250 x 4.6 250 x 10 250 x 21.2 250 x 30 250 x 50 4 x 3.0* 10 x 10 ‡ 15 x 21.2** 15 x 30.0 ♦<br />
/10pk /3pk /ea /ea<br />
C4 300 Å 00G-4169-E0 00G-4169-N0 00G-4169-P0 00G-4169-U0 00G-4169-V0 AJ0-4330 AJ0-7225 AJ0-7231 AJ0-8314<br />
C5 300 Å 00G-4056-E0 00G-4056-N0 00G-4056-P0 — 00G-4056-V0 AJ0-4327 AJ0-7371 — —<br />
C18 300 Å 00G-4057-E0 00G-4057-N0 00G-4057-P0 00G-4057-U0 00G-4057-V0 AJ0-4321 AJ0-7224 AJ0-7230 AJ0-8313<br />
for ID: 3.2-8.0 mm 9-16 mm 18-29 mm 30-49 mm<br />
Ordering Information<br />
*SecurityGuard Analytical Cartridges require holder, Part No.: KJ0-4282<br />
‡<br />
SemiPrep SecurityGuard Cartridges require holder, Part No.: AJ0-7220<br />
Bulk Material<br />
10 μm Bulk Packings<br />
Phase 100 g 1 kg 5 kg 10 kg 50 kg 100 kg<br />
Inquire Inquire Inquire Inquire Inquire Inquire<br />
C4 300 Å 04G-4168 04K-4168 04L-4168 04M-4168 04N-4168 04P-4168<br />
C5 300 Å 04G-4054 04K-4054 04L-4054 04M-4054 04N-4054 04P-4054<br />
C18 300 Å 04G-4055 04K-4055 04L-4055 04M-4055 04N-4055 04P-4055<br />
Proteo 90 Å 04G-4397 04K-4397 04L-4397 04M-4397 04N-4397 04P-4397<br />
**PREP SecurityGuard Cartridges require holder, Part No.: AJ0-8223<br />
PREP SecurityGuard Cartridges require holder, Part No.: AJ0-8277<br />
15 μm Bulk Packings<br />
Phases 100 g 1 kg 5 kg 10 kg 50 kg 100 kg<br />
Inquire Inquire Inquire Inquire Inquire Inquire<br />
C4 300 Å 04G-4169 04K-4169 04L-4169 04M-4169 04N-4169 04P-4169<br />
C5 300 Å 04G-4056 04K-4056 04L-4056 04M-4056 04N-4056 04P-4056<br />
C18 300 Å 04G-4057 04K-4057 04L-4057 04M-4057 04N-4057 04P-4057<br />
Phenomenex international@phenomenex.com www.phenomenex.com<br />
51
Rezex <br />
Sugar, Carbohydrate, and<br />
Organic Acid Analysis<br />
Carbohydrate and Organic Acid Analysis<br />
• Excellent resolution<br />
• Wide range of selectivities<br />
• Excellent column-to-column reproducibility<br />
®<br />
• Recommended alternative to Bio-Rad Aminex ® , Supelco ®<br />
Supelcogel and Waters ® Sugar-Pak at cost-effective prices<br />
Rezex columns contain sulfonated styrene-divinylbenzene spheres in<br />
4 and 8 % cross-link forms as well as various ionic forms, including<br />
calcium, sodium, hydrogen, potassium, lead, and silver. So all you have<br />
to do is select the column with the appropriate selectivity.<br />
Find the <strong>Co</strong>lumn For Your Application<br />
Phases Available Description Applications Additional Notes<br />
RCM-Monosaccharide<br />
(L19 packing)*<br />
8 % cross-linked resin<br />
CALCIUM ionic form<br />
Monosaccharides and sugar alcohols from<br />
sweeteners and corn and cane sugars<br />
Di, tri, and tetra saccharides<br />
– Our most commonly used column type<br />
– Easy regeneration with calcium nitrate solutions<br />
RHM-Monosaccharide<br />
(L17 packing)*<br />
RAM-Carbohydrate<br />
RSO-Oligosaccharide<br />
RNO-Oligosaccharide<br />
RPM-Monosaccharide<br />
(L34 packing)*<br />
RNM-Carbohydrate<br />
(L58 packing)*<br />
ROA-Organic Acid<br />
(L22 packing)*<br />
RFQ-Fast Acid<br />
RKP-Potassium<br />
RCU-USP Sugar Alcohols<br />
(L19 packing)*<br />
8 % cross-linked resin<br />
HYDROGEN ionic form<br />
8 % cross-linked resin<br />
SILVER ionic form<br />
4 % cross-linked resin<br />
SILVER ionic form<br />
4 % cross-linked resin<br />
SODIUM ionic form<br />
8 % cross-linked resin<br />
LEAD ionic form<br />
8 % cross-linked resin<br />
SODIUM ionic form<br />
8 % cross-linked resin<br />
HYDROGEN ionic form<br />
8 % cross-linked resin<br />
HYDROGEN ionic form<br />
8 % cross-linked resin<br />
POTASSIUM ionic form<br />
8 % cross-linked resin<br />
CALCIUM ionic form<br />
* United States Pharmacopeia (USP)<br />
Monosaccharides in combination with organic acids,<br />
fatty acids, alcohols, ketones, neutral compounds, or<br />
inorganic salts<br />
Selectivity complimentary to other Rezex column types<br />
High resolution of oligosaccharides up to 18 degrees<br />
of polymerization (Dp)<br />
High resolution of oligosaccharides<br />
Monosaccharides and sugar alcohol analysis.<br />
Cellobiose, glucose, xylose, arabinose, and<br />
mannose & other cellulose products<br />
For matrices which contain high<br />
concentration of inorganic sodium,<br />
Example-molasses<br />
Organic acids alone or in combination<br />
with carbohydrates, alcohols, fatty acids, or neutral<br />
compounds; Amino sugars<br />
Rapid screening of fruit quality; ethanol,<br />
acetic acid, glycerol, & standard alcohol mixtures<br />
Analysis of glyphosate<br />
For sugar analysis according to the USP procedures<br />
– Versatile column, generally run with a<br />
mobile phase of deionized water<br />
– Guard column is recommended to<br />
protect the ionic integrity of the matrix<br />
– Easily regenerated to the original ionic strength<br />
– Selectivity can be altered by changing the pH as<br />
well as the type of dilute mineral acid used as the<br />
mobile phase<br />
– Analytes are routinely chromatographed under<br />
5 minutes<br />
– Sorbitol and mannitol can be resolved using<br />
simple isocratic conditions<br />
52 www.phenomenex.com international@phenomenex.com<br />
Phenomenex
Rezex <br />
Sugar, Carbohydrate, and<br />
Organic Acid Analysis<br />
Rezex vs. Bio-Rad Aminex ®<br />
Phenomenex guarantees satisfaction when using Rezex HPLC columns. As<br />
illustrated below, Rezex offers advantages that enhance chromatographic<br />
results, increase throughput, and simplify quantitation.<br />
Easier, Accurate Quantitation<br />
Due to improved peak shape<br />
Saccharides<br />
<strong>Co</strong>nditions for both columns:<br />
<strong>Co</strong>lumn: Rezex RCM-Monosaccharide<br />
Aminex HPX-87C<br />
Dimensions: 300 x 7.8 mm<br />
Mobile Phase: Water<br />
Flow Rate: 0.6 mL/min<br />
Detection: ELSD<br />
Temperature: 80 °C<br />
Sample: 1. Melezitose<br />
2. Maltose<br />
3. Glucose<br />
4. Mannose<br />
5. Fructose<br />
6. Ribitol<br />
Orange Juice<br />
<strong>Co</strong>nditions for both columns:<br />
<strong>Co</strong>lumn: Rezex RCM-Monosaccharide<br />
Aminex HPX-87C<br />
Dimensions: 300 x 7.8 mm<br />
Mobile Phase: Water<br />
Flow Rate: 0.6 mL/min<br />
Detection: ELSD<br />
Temperature: 80 °C<br />
Sample: 1. Sucrose<br />
2. Glucose<br />
3. Fructose<br />
mAU<br />
120<br />
100<br />
80<br />
60<br />
40<br />
1 2<br />
Superior<br />
Peak Shape<br />
3<br />
4<br />
5<br />
6<br />
Rezex<br />
RCM<br />
App ID 14975<br />
mAU<br />
500<br />
400<br />
300<br />
200<br />
100<br />
1<br />
2<br />
3<br />
Rezex<br />
RCM<br />
App ID 14981<br />
mAU<br />
100<br />
80<br />
60<br />
40<br />
0 10 20 min<br />
1<br />
2<br />
3<br />
0 10 20 min<br />
4<br />
5<br />
6<br />
Aminex<br />
HPX-87C<br />
App ID 14976<br />
mAU<br />
400<br />
200<br />
0 2 4 6 8 10 12 14 16 min<br />
1<br />
Difficult Quantitation<br />
2 3<br />
Aminex<br />
HPX-87C<br />
0 2 4 6 8 10 12 14 16 min<br />
App ID 14982<br />
Longer <strong>Co</strong>lumn Lifetime<br />
Due to lower backpressures<br />
Aliphatic Acids<br />
<strong>Co</strong>nditions for both columns:<br />
<strong>Co</strong>lumn: Rezex ROA-Organic Acid<br />
Aminex HPX-87H<br />
Dimensions: 300 x 7.8 mm<br />
Mobile Phase: 0.005 N H 2 SO 4<br />
Flow Rate: 0.5 mL/min<br />
Detection: UV @ 210 nm<br />
Temperature: 40 °C<br />
Sample: 1. Oxalic Acid<br />
2. Citric Acid<br />
3. Tartaric Acid<br />
4. Succinic Acid<br />
5. Formic Acid<br />
6. Acetic Acid<br />
Baseline Separation of Critical<br />
Sample <strong>Co</strong>mponents<br />
Due to improved resolution<br />
Sugars<br />
<strong>Co</strong>nditions for both columns:<br />
<strong>Co</strong>lumn: Rezex RCM-Monosaccharide<br />
Aminex HPX-87C<br />
Dimensions: 300 x 7.8 mm<br />
Mobile Phase: Water<br />
Flow Rate: 0.6 mL/min<br />
Detection: ELSD<br />
Temperature: 80 °C<br />
Sample: 1. Sucrose<br />
2. Glucose<br />
3. Galactose<br />
4. Fructose<br />
5. Sorbitol<br />
mAU<br />
mAU<br />
120<br />
100<br />
80<br />
60<br />
40<br />
20<br />
0<br />
120<br />
100<br />
80<br />
60<br />
40<br />
20<br />
0<br />
Rezex<br />
32<br />
1<br />
0 10 20 min<br />
Aminex<br />
55<br />
Bar<br />
Bar<br />
1<br />
2<br />
3<br />
0 10 20 min<br />
2<br />
3<br />
4<br />
4<br />
5<br />
5<br />
6<br />
Rezex<br />
ROA<br />
6<br />
Aminex<br />
HPX-87H<br />
App ID 14963 App ID 14962<br />
mAU<br />
mAU<br />
80<br />
60<br />
40<br />
100<br />
80<br />
60<br />
40<br />
0<br />
1<br />
Baseline<br />
1<br />
Resolution<br />
2<br />
3 4<br />
10 20<br />
30 min<br />
2 3 4<br />
0 10 20 30 min<br />
5<br />
5<br />
Rezex<br />
RCM<br />
Aminex<br />
HPX-87C<br />
App ID 14977<br />
App ID 14978<br />
<strong>Co</strong>mparative separations may not be representative of all applications.<br />
Aminex ® is a registered trademark of Bio-Rad.<br />
Phenomenex is in no way affilated with Bio-Rad.<br />
Phenomenex international@phenomenex.com www.phenomenex.com<br />
53
Rezex <br />
Sugar, Carbohydrate, and<br />
Organic Acid Analysis<br />
Retention Times for Some Carbohydrates and Sugar Alcohols<br />
<strong>Co</strong>unter Ion Analyte RAM Ag + RCM Ca +2 RNM Na + RHM H + RPM Pb +2<br />
Adonitol (Ribitol) 11.54 14.93 11.10 11.11 20.15<br />
D-Altrose 11.95 12.71 11.45 10.21 15.82<br />
D-(-)-Arabinose 13.01 13.56 12.65 11.24 16.47<br />
D-(+)-Cellobiose 8.86 8.60 8.49 8.02 11.00<br />
D-(+)-Digitoxose 11.90 13.82 11.39 12.59 15.32<br />
Dulcitol 11.64 21.61 11.10 10.71 33.25<br />
Meso-Erythritol 12.31 15.49 11.78 12.14 19.82<br />
D-(-)- Fructose 12.05 13.65 11.76 10.31 17.71<br />
L-(-)-Fucose 12.75 13.19 12.30 11.65 16.19<br />
D-(+)-Galactose 11.87 11.73 11.47 10.19 14.94<br />
Gentiobiose 8.70 8.40 8.40 7.87 10.53<br />
D-(+)-Glucose 11.04 10.37 10.71 9.62 12.92<br />
Inositol 12.59 13.35 12.14 9.98 18.87<br />
Isomaltose 9.11 8.74 8.76 8.02 11.28<br />
Lactose 9.27 9.03 8.78 8.32 11.89<br />
Lactulose 9.75 10.32 9.23 8.57 13.95<br />
D- Lyxose 12.41 14.06 11.98 10.68 16.66<br />
D- Maltose 9.16 8.81 8.75 8.18 11.59<br />
Maltotriose 8.27 8.10 7.94 7.51 11.02<br />
Maltulose 9.25 9.47 8.82 8.27 12.40<br />
D- Mannitol 11.36 17.82 10.80 10.59 24.90<br />
D-(+)-Mannose 12.04 12.04 11.54 10.16 16.39<br />
Melibiose 9.26 9.04 8.82 8.14 11.97<br />
D-(+)-Melezitose 8.00 7.93 7.66 7.54* 9.94<br />
D-(+)-Raffinose 8.10 8.16 7.76 7.88* 10.28<br />
L-(+)-Rhamnose 11.50 12.18 11.00 10.90 14.47<br />
D-(-)-Ribose 14.59 23.38 14.34 11.42 33.48<br />
Salicin 18.51 18.58 17.36 14.98 26.81<br />
D-Sorbitol 11.91 22.45 11.39 10.83 35.97<br />
Stachyose 7.60 7.59 7.30 7.27 9.72<br />
Sucrose 9.03 8.71 8.65 9.24* 11.00<br />
Trehalose 8.91 8.72 8.49 8.32 11.01<br />
Xylitol 12.69 22.01 12.16 11.78 32.38<br />
D-(+)-Xylose 12.06 11.62 11.68 10.24 13.84<br />
* Partial hydrolysis results.<br />
<strong>Co</strong>nditions:<br />
Dimensions: 300 x 7.8 mm<br />
Mobile Phase: Water (degassed)<br />
Flow Rate: 0.6 mL/min<br />
Temperature: 80 °C<br />
Detection: RI @ 40 °C<br />
<strong>Co</strong>lumn Cross Reference Chart<br />
Phenomenex ®<br />
Rezex Bio-Rad ®<br />
Aminex ® Supelco ®<br />
Supelcogel Waters ®<br />
Sugar-Pak <br />
RCM-Monosaccharide HPX-87C Supelcogel Ca Sugar-Pak 1<br />
125-0095<br />
RHM-Monosaccharide HPX-87H Supelcogel C-610H N/A<br />
125-0140 & H<br />
RPM-Monosaccaride HPX-87P Supelcogel Pb N/A<br />
125-0098<br />
RNM-Carbohydrate HPX-87N N/A<br />
N/A<br />
125-0143<br />
RSO-Oligosaccharide HPX-42A Supelcogel Ag1 N/A<br />
125-0097 & Ag2<br />
ROA-Organic Acid HPX-87H Supelcogel C-610H N/A<br />
125-0140 & H<br />
RFQ-Fast Acid Fast Acid N/A<br />
N/A<br />
125-0100<br />
RKP-Potassium HPX-87K Supelcogel K N/A<br />
125-0142<br />
RCU-USP Sugar Alcohols Sugar<br />
Alcohols<br />
125-0094<br />
N/A<br />
N/A<br />
Ordering Information<br />
SecurityGuard Analytical Cartridges require universal holder Part No.: KJO-4282<br />
<strong>Co</strong>lumns Guards<br />
SecurityGuard <br />
Cartridges (mm)<br />
Description<br />
Part No.<br />
Cross<br />
Linkage Ionic Form Size (mm) Part No. Size (mm)<br />
4 x 3.0<br />
/10pk<br />
RCM-Monosaccharide 00H-0130-K0 8 % Calcium 300 x 7.8 03B-0130-K0 50 x 7.8 AJ0-4493<br />
RHM-Monosaccharide 00H-0132-K0 8 % Hydrogen 300 x 7.8 03B-0132-K0 50 x 7.8 AJ0-4490<br />
RAM-Carbohydrate 00H-0131-K0 8 % Silver 300 x 7.8 — — AJ0-4491<br />
RSO-Oligosaccharide 00P-0133-N0 4 % Silver 200 x 10.0 03R-0133-N0 60 x 10.0 —<br />
RNO-Oligosaccharide 00P-0137-N0 4 % Sodium 200 x 10.0 03R-0137-N0 60 x 10.0 —<br />
RPM-Monosaccharide<br />
(for USP procedure)<br />
00H-0135-K0<br />
00D-0135-K0<br />
8 %<br />
8 %<br />
Lead<br />
Lead<br />
300 x 7.8<br />
100 x 7.8<br />
03B-0135-K0<br />
03B-0135-K0<br />
50 x 7.8<br />
50 x 7.8<br />
AJ0-4492<br />
AJ0-4492<br />
RNM-Carbohydrate 00H-0136-K0 8 % Sodium 300 x 7.8 03B-0136-K0 50 x 7.8 —<br />
ROA-Organic Acid 00H-0138-K0 8 % Hydrogen 300 x 7.8 03B-0138-K0 50 x 7.8 AJ0-4490<br />
ROA-Organic Acid 00F-0138-K0 8 % Hydrogen 150 x 7.8 03B-0138-K0 50 x 7.8 AJ0-4490<br />
ROA-Organic Acid 00G-0138-E0 8 % Hydrogen 250 x 4.6 — — AJ0-4490<br />
RKP-Potassium 00H-3252-K0 8 % Potassium 300 x 7.8 — — —<br />
RFQ-Fast Acid 00D-0223-K0 8 % Hydrogen 100 x 7.8 03B-0223-K0 50 x 7.8 AJ0-4490<br />
RCU-USP Sugar Alcohols 00G-0130-D0 8 % Calcium 250 x 4.0 03A-0130-D0 30 x 4.0 AJ0-4493<br />
for ID: 3.2-8.0 mm<br />
Aminex is a registered trademark of Bio-Rad.<br />
Supeleogel is a trademark of Supleco.<br />
Sugar-Pak is a trademark of Waters <strong>Co</strong>rporation.<br />
Rezex is a trademark of Phenomenex, Inc.<br />
Phenomenex is in no way affiliated with any of the companies mentioned above.<br />
54 www.phenomenex.com international@phenomenex.com<br />
Phenomenex
Phenogel <br />
GPC<br />
Size Exclusion<br />
• 5 and 10 μm particle sizes<br />
• Narrow bore (4.6 mm ID) solvent-saver to preparative<br />
columns available<br />
• Very good alternative to Polymer Labs PLgel and<br />
Waters Styragel, Ultrastyragel, Styragel HT, and<br />
Styragel HR columns<br />
• Highly cross-linked for mechanical and<br />
chemical stability<br />
• Temperature stable to 140 °C<br />
Phenogel is available in seven different pore sizes ranging from<br />
50 Å to 10 6 Å Δ , and a linear bed configuration. Pore size distribution<br />
and pore volume are closely controlled parameters in<br />
the manufacturing process; accounting for the high resolution,<br />
tight linear calibration curves and excellent column-to-column<br />
reproducibility.<br />
Sample Elution<br />
Each standard dimension Phenogel column (300 x 7.8 mm)<br />
has an internal volume of 15 mL that is distributed as follows:<br />
• 3 mL is occupied by the solid portions of the gel particles<br />
(20 % of total column volume)<br />
• 6 mL is the pore volume of the packing material<br />
(40 % of total column volume)<br />
• 6 mL is the interstitial volume or volume between the gel particles<br />
(40 % of total column volume)<br />
Thus, about 6 mL of solvent must elute through each column<br />
before even the largest molecules can emerge, while the<br />
smallest molecules emerge with the total column volume of 12<br />
mL. This constant distribution of volume makes it possible to<br />
predict the amount of solvent and time necessary to complete<br />
any analysis.<br />
Technical Specifications<br />
Material:<br />
Particle Size:<br />
Porosities:<br />
Typical Pressure:<br />
SDVB<br />
5, 10 μm<br />
50 Å to 10 6 Å † , and mixed<br />
beds<br />
5 μm: 350 psi<br />
10 μm: 200 psi<br />
650 psi<br />
Maximum Pressure:<br />
Maximum Temperature: 140 °C<br />
Minimum Efficiency*: 5 μm: 45,000 p/m**<br />
10 μm: 35,000 p/m**<br />
Typical Flow Rates:<br />
End Fittings:<br />
4.6 mm ID: 0.35 mL/min<br />
7.8 mm ID: 1.0 mL/min<br />
21.2 mm ID: 8.0 mL/min<br />
Valco <strong>Co</strong>mpatible<br />
* Tested in THF ** For 300 x 7.8 mm ID columns<br />
<strong>Co</strong>lumn Molecular Weight Calibration Curves<br />
Polystyrene Molecular Weight<br />
SEM Photos of Phenogel Polymer Beads<br />
Elution Volume/<strong>Co</strong>lumn (mL)<br />
10 3 Å 10 6 Å<br />
Δ<br />
Pore Size is expressed in Angstroms (10-10 meters). This is actually a<br />
convention used by manufacturers to indicate the approximate molecular<br />
weight of compounds that can be separated on a given SEC packing;<br />
these values do not indicate the actual size (diameter) of the pores on<br />
the surface of the particle. Exclusion Limit is expressed in daltons (the<br />
molecular weight) of the specified compound excluded from the pores<br />
of the base material. Practically speaking however, the exclusion limit is<br />
more accurately a reflection of the hydrodynamic volume occupied by the<br />
solvated compound.<br />
<strong>Co</strong>lumn Selection by Molecular Weight<br />
Sample Type<br />
Molecular<br />
Weight<br />
Phenogel<br />
<strong>Co</strong>lumn<br />
Small Organics 100 - 3 K<br />
500 - 6 K<br />
1 K - 15 K<br />
50 Å<br />
100 Å<br />
500 Å<br />
Resins<br />
1 K - 75 K<br />
5 K - 500 K<br />
10 K - 1,000 K<br />
10 3 Å<br />
10 4 Å<br />
10 5 Å<br />
High MW Polymers 60 K - 10,000<br />
K<br />
100 - 10,000 K<br />
10 6 Å<br />
Linear(2)<br />
Phenomenex international@phenomenex.com www.phenomenex.com<br />
55
Phenogel <br />
GPC/SEC <strong>Co</strong>lumns<br />
GPC<br />
Size Exclusion<br />
Ordering Information<br />
5 μm <strong>Co</strong>lumns (mm) Guards<br />
300 x 7.8 600 x 7.8 300 x 21.2 50 x 7.8<br />
Pore Size MW Range<br />
50 Å 100-3 K 00H-0441-K0 — — 03B-2088-K0<br />
100 Å 500-6 K 00H-0442-K0 00K-0442-K0 — 03B-2088-K0<br />
500 Å 1K-15 K 00H-0443-K0 — — 03B-2088-K0<br />
10 3 Å 1K-75 K 00H-0444-K0 — — 03B-2088-K0<br />
10 4 Å 5K-500 K 00H-0445-K0 00K-0445-K0 00H-0445-P0 03B-2088-K0<br />
10 5 Å 10K-1,000 K 00H-0446-K0 00K-0446-K0 00H-0446-P0 03B-2088-K0<br />
10 6 Å 60K-10,000 K 00H-0447-K0 — 00H-0447-P0 03B-2088-K0<br />
300 x 7.8 600 x 7.8 — 50 x 7.8<br />
Mixed Beds —<br />
Linear(2) 100-10,000 K 00H-3259-K0 00K-3259-K0 — 03B-2088-K0<br />
Other Shipping Solvents:<br />
Methanol, Methylene Chloride, Cyclohexane, Ethyl<br />
Acetate, NMP, DMAC, DMF<br />
Size (mm)<br />
Price<br />
30 x 4.6<br />
$ 75<br />
50 x 4.6<br />
75<br />
300 x 4.6<br />
125<br />
300 x 7.8<br />
150<br />
600 x 7.8<br />
200<br />
300 x 21.2<br />
250<br />
600 x 21.2<br />
470<br />
NOTE: Phenogel columns are routinely shipped in THF.<br />
<strong>Co</strong>lumns can be shipped in Toluene and Chloroform upon<br />
request at no additional charge.<br />
5 μm Narrow Bore (NB) <strong>Co</strong>lumns (mm) Guards<br />
300 x 4.6 30 x 4.6<br />
Pore Size<br />
MW Range<br />
50 Å 100-3 K 00H-0441-E0 03A-2088-E0<br />
100 Å 500-6 K 00H-0442-E0 03A-2088-E0<br />
500 Å 1K-15 K 00H-0443-E0 03A-2088-E0<br />
10 3 Å 1K-75 K 00H-0444-E0 03A-2088-E0<br />
10 4 Å 5K-500 K 00H-0445-E0 03A-2088-E0<br />
Phenogel <strong>Co</strong>lumns are a<br />
Recommended Alternative to:<br />
Manufacturer <strong>Co</strong>lumns<br />
Jordi Associates Jordi GPC-DVB<br />
Polymer Labs<br />
PLgel <br />
Waters Styragel ®<br />
µStyragel <br />
Ultrastyragel <br />
Styragel ® HT<br />
Styragel ® HR<br />
10 μm <strong>Co</strong>lumns (mm) Guards<br />
300 x 7.8 600 x 7.8 300 x 21.2 600 x 21.2 50 x 7.8<br />
Pore Size MW Range<br />
50 Å 100-3 K 00H-0641-K0 00K-0641-K0 00H-0641-P0 00K-0641-P0 03B-2090-K0<br />
100 Å 500-6 K 00H-0642-K0 00K-0642-K0 00H-0642-P0 00K-0642-P0 03B-2090-K0<br />
500 Å 1K-15 K 00H-0643-K0 00K-0643-K0 — 00K-0643-P0 03B-2090-K0<br />
10 3 Å 1K-75 K 00H-0644-K0 00K-0644-K0 00H-0644-P0 00K-0644-P0 03B-2090-K0<br />
10 4 Å 5K-500 K 00H-0645-K0 00K-0645-K0 00H-0645-P0 00K-0645-P0 03B-2090-K0<br />
10 5 Å 10K-1,000 K 00H-0646-K0 00K-0646-K0 00H-0646-P0 00K-0646-P0 03B-2090-K0<br />
10 6 Å 60K-10,000 K 00H-0647-K0 00K-0647-K0 00H-0647-P0 00K-0647-P0 03B-2090-K0<br />
300 x 7.8 600 x 7.8 300 x 21.2 — 50 x 7.8<br />
Mixed Beds —<br />
Linear(2) 100-10,000 K 00H-3260-K0 00K-3260-K0 00H-3260-P0 — 03B-2090-K0<br />
All other column dimensions available. Phenogel<br />
columns are routinely shipped in THF. However,<br />
columns are also available in commonly used<br />
solvents such as Toluene and Chloroform as<br />
well as DMF, NMP, and other solvents. Refer<br />
to the chart above for the additional charge for<br />
these shipping solvents. Please specify shipping<br />
solvent when ordering.<br />
56 www.phenomenex.com international@phenomenex.com<br />
Phenomenex
Axia Packed Preparative HPLC<br />
Preparative HPLC<br />
U.S. Patent No. 7, 674, 383<br />
Preparative Chromatography Redefined<br />
Axia patented technology is an advanced column packing and<br />
hardware design that eliminates media bed collapse as a source<br />
of premature failure in chiral and achiral preparative columns.<br />
2006 R&D 100<br />
Award Recipient<br />
<strong>Co</strong>mpare Lifetime<br />
Axia Packed<br />
Luna ® 5 µm C18(2) Axia Packed<br />
Leading <strong>Co</strong>mpetitive Preparative <strong>Co</strong>lumn<br />
Waters ® XTerra ® 5 µm Prep MS C18 OBD <br />
mAu mAu<br />
1 1<br />
2 2<br />
3 3<br />
mAu mAu<br />
1 1<br />
2 2<br />
3 3<br />
500 500<br />
vs.<br />
500 500<br />
0 0<br />
App ID 15972<br />
0 0<br />
App ID 15933<br />
2 2<br />
3 3<br />
4 4 min min<br />
2 2 3 3<br />
4 4 min min<br />
First Run 800th Run First Run 120th Run †<br />
† Six columns tested. Best lifetime chosen for comparison.<br />
<strong>Co</strong>nditions for all except where noted:<br />
<strong>Co</strong>lumns: Luna ® 5 µm C18(2) Axia Packed<br />
Waters ® XTerra ® 5 µm Prep MS C18 OBD <br />
Dimension: 50 x 21.2 mm (Luna ® )<br />
50 x 19 mm (XTerra ® )<br />
Mobile Phase: A: 0.5 % TFA in Water B: 0.5 % TFA in Acetonitrile<br />
Gradient: Linear 95:5 (A/B) to 5:95 (A/B) over 7 min, hold 3 min<br />
Injection Volume: 500 μL<br />
Flow Rate: 30 mL/min (Luna ® )<br />
24 mL/min (XTerra ® ) ‡<br />
Temperature: Ambient<br />
Detection: UV @ 254 nm<br />
Sample: 1. Triprolidine 1.6 mg<br />
2. Methacycline 16 mg<br />
3. Amitriptyline 5.25 mg<br />
‡<br />
Same linear velocity<br />
Phenomenex international@phenomenex.com www.phenomenex.com<br />
57
Axia Packed Preparative HPLC<br />
Preparative HPLC<br />
U.S. Patent No. 7, 674, 383<br />
Selectivity Options<br />
Stationary Phase Selectivity<br />
With high surface areas, Phenomenex media—Gemini ® -NX and Gemini (375 m 2 /g), Luna ® (400 m 2 /g) and Synergi (475 m 2 /g) —<br />
maximize loading capabilities. Use the selection tree below to select the best media for your targeted purification.<br />
<strong>Co</strong>lumn Selection Tree<br />
Achiral<br />
Chiral<br />
Yes<br />
Aromatic?<br />
No<br />
Yes<br />
Basic <strong>Co</strong>mpounds? No<br />
Yes<br />
Aromatic?<br />
No<br />
Lux Cellulose-1<br />
Lux Cellulose-2<br />
Lux Cellulose-3<br />
Lux Cellulose-4<br />
Lux Amylose-2<br />
Gemini C6-Phenyl<br />
(Basic mobile phase pH<br />
recommended)<br />
Gemini-NX C18<br />
Gemini C18<br />
(Basic mobile phase<br />
pH recommended)<br />
Gemini, Lux and Luna are registered trademarks of Phenomenex, Inc.<br />
Synergi is a trademark of Phenomenex, Inc.<br />
Synergi Polar-RP<br />
Luna Phenyl-Hexyl<br />
Yes<br />
Synergi Polar-RP<br />
Synergi Hydro-RP<br />
Polar?<br />
No<br />
Gemini-NX C18<br />
Luna C8(2) or C18(2)<br />
Synergi Max-RP<br />
pH-LC <br />
In reversed phase chromatography, compounds retain better when neutral. With the advent of pH stable (1-12) media such as<br />
Gemini-NX C18, Gemini C18 and C6-Phenyl, improving retention and resolution of basic compounds at high pH is now possible<br />
without compromising column lifetime. Under these conditions you can easily double or triple the loading compared to your current<br />
low pH purifications.<br />
pH Selectivity<br />
Increase Sample Load<br />
20000<br />
10000<br />
0<br />
0<br />
1<br />
Low pH<br />
<strong>Co</strong>lumn: Luna ® 5 µm C18(2)<br />
Axia Packed<br />
Dimensions: 50 x 21.2 mm<br />
Part No.: 00B-4252-P0-AX<br />
Mobile Phase: A: 0.5 % TFA in Water<br />
B: 0.5 % TFA in<br />
Acetonitrile<br />
Gradient: Linear 95:5 (A/B) to<br />
5:95 (A/B)<br />
over 7 min, hold 3 min<br />
Injection Volume: 500 μL<br />
Flow Rate: 30 mL/min<br />
Detection: UV @ 254 nm<br />
Sample: 1. Triprolidine 1.6 mg<br />
2. Methacycline 16 mg<br />
3. Amitriptyline 5.25 mg<br />
3<br />
Injection Volume: 500 μL<br />
2.5 5 7.5 min<br />
20000<br />
10000<br />
High pH<br />
<strong>Co</strong>lumns: Gemini ® 10 µm C18<br />
Axia Packed<br />
Dimensions: 50 x 21.2 mm<br />
Part No.: 00B-4436-P0-AX<br />
Mobile Phase: A: 95:5 50 mM<br />
Ammonium Bicarbonate,<br />
pH 10.0 / Acetonitrile<br />
B: 5:95 50 mM<br />
Ammonium Bicarbonate,<br />
pH 10.0 / Acetonitrile<br />
Gradient: 7 min 100 % A to<br />
20000<br />
2<br />
100 % B over<br />
7 min, equilibrate<br />
10000<br />
for 3 min<br />
0<br />
Flow Rate: 30 mL/min<br />
Detection: UV @ 254 nm<br />
Sample: 1. Triprolidine 1.6 mg<br />
2. Methacycline 16 mg<br />
3. Amitriptyline 5.25 mg<br />
0<br />
0<br />
2<br />
1<br />
Luna ® 5 μm C18(2)<br />
Axia Packed<br />
2<br />
3<br />
2.5 5 7.5 min<br />
Gemini ® 10 μm C18<br />
Axia Packed<br />
0 5<br />
2.5 7.5 min<br />
1<br />
3<br />
App ID 15973 App ID 15928<br />
30 mg load<br />
2500<br />
2000<br />
1500<br />
1000<br />
2500<br />
2000 0<br />
1500 -500<br />
2500<br />
20000<br />
1000<br />
10000<br />
2000<br />
500<br />
1500<br />
0<br />
3000<br />
1000<br />
-500<br />
2500<br />
500<br />
2000<br />
3000<br />
500<br />
2500<br />
0<br />
2000<br />
-500<br />
1500 3000<br />
1000 2500<br />
2000 500<br />
15000<br />
3000<br />
1000 -500<br />
2500<br />
3000<br />
500<br />
1000 2500<br />
2000 500<br />
15000<br />
0<br />
0<br />
0<br />
2<br />
2<br />
0 5<br />
2.5 7.5 min<br />
1<br />
0<br />
1500<br />
30 -500 mg load<br />
1000 0<br />
1<br />
2<br />
500<br />
2000<br />
0<br />
1500<br />
-500<br />
1000<br />
1<br />
0 1<br />
2<br />
2500<br />
0<br />
2000<br />
60 mg load<br />
0 1<br />
2<br />
1500 3000<br />
1000<br />
500<br />
0<br />
1<br />
0 1<br />
2<br />
0 1<br />
2<br />
0 1<br />
0 1<br />
2<br />
2<br />
2<br />
2<br />
1<br />
1<br />
1<br />
2<br />
2<br />
3 4 5 min<br />
Increase pH for basic compounds<br />
1<br />
3<br />
3 4 5 min<br />
2<br />
3 4 5 min<br />
1<br />
3 4 5 min<br />
1<br />
1<br />
2<br />
3 4 5 min<br />
2<br />
Baseline Resolution<br />
for Higher Purity<br />
1<br />
2<br />
3 4 5 min<br />
3 4<br />
2<br />
5 min<br />
1<br />
2<br />
pH 2.0<br />
pH 10.0<br />
App ID 17727 App ID 17726<br />
App ID 17725<br />
3 4 5 min<br />
3 4 5 min<br />
Low pH<br />
<strong>Co</strong>lumn: Luna ® 5 µm C18(2)<br />
Axia Packed<br />
Dimensions: 50 x 21.2 mm<br />
Part No.: 00B-4252-P0-AX<br />
Mobile Phase: A: 0.5 % TFA in<br />
Water, pH 2.0<br />
B: Acetonitrile<br />
Gradient: 95:5 to 5:95 (A/B)<br />
over 4 minutes<br />
Temperature: Ambient<br />
Flow Rate: 30 mL/min<br />
Detection: UV @ 254 nm<br />
Sample: 1. Propranolol<br />
2. Diphenhydramine<br />
High pH<br />
<strong>Co</strong>lumn: Gemini ® 5µm C18<br />
Axia Packed<br />
Dimensions: 50 x 21.2 mm<br />
Part No.: 00B-4435-P0-AX<br />
Mobile Phase: A: 50 mM<br />
Ammonium<br />
Bicarbonate, pH 10.0<br />
B: Acetonitrile<br />
Gradient: 95:5 to 5:95 (A/B)<br />
over 5 minutes<br />
Temperature: Ambient<br />
Flow Rate: 30 mL/min<br />
Detection: UV @ 254 nm<br />
Sample: 1. Propranolol<br />
2. Diphenhydramine<br />
58 www.phenomenex.com international@phenomenex.com<br />
Phenomenex
Axia Packed Preparative HPLC<br />
Preparative HPLC<br />
U.S. Patent No. 7, 674, 383<br />
Axia Packed <strong>Co</strong>lumns<br />
Ordering Information<br />
Phases<br />
Part No.<br />
50 x 21.2 mm<br />
Gemini 5 µm C18<br />
00B-4435-P0-AX<br />
Gemini 10 µm C18<br />
00B-4436-P0-AX<br />
Gemini-NX 5 µm C18<br />
00B-4454-P0-AX<br />
Gemini-NX 10 µm C18<br />
00B-4455-P0-AX<br />
Luna 5 µm C18(2)<br />
00B-4252-P0-AX<br />
Luna 10 µm C18(2)<br />
00B-4253-P0-AX<br />
Luna 5 µm C8(2)<br />
00B-4249-P0-AX<br />
Luna 10 µm C8(2)<br />
00B-4250-P0-AX<br />
Luna 5 µm CN<br />
00B-4255-P0-AX<br />
Luna 5 µm PFP(2)<br />
00B-4448-P0-AX<br />
Luna 5 µm Phenyl-Hexyl 00B-4257-P0-AX<br />
Luna 5 µm HILIC<br />
00B-4450-P0-AX<br />
Luna 5 µm Silica(2)<br />
00B-4274-P0-AX<br />
Synergi 4 µm Fusion-RP 00B-4424-P0-AX<br />
Synergi 4 µm Max-RP<br />
00B-4337-P0-AX<br />
Synergi 4 µm Hydro-RP 00B-4375-P0-AX<br />
Synergi 4 µm Polar-RP 00B-4336-P0-AX<br />
75 x 21.2 mm<br />
Gemini 5 µm C18<br />
00C-4435-P0-AX<br />
Gemini-NX 5 µm C18<br />
00C-4454-P0-AX<br />
Luna 5 µm C18(2)<br />
00C-4252-P0-AX<br />
100 x 21.2 mm<br />
Gemini 5 µm C18<br />
00D-4435-P0-AX<br />
Gemini 10 µm C18<br />
00D-4436-P0-AX<br />
Gemini 5 µm C6-Phenyl 00D-4444-P0-AX<br />
Gemini-NX 5 µm C18<br />
00D-4454-P0-AX<br />
Gemini-NX 10 µm C18 00D-4455-P0-AX<br />
Jupiter 10 µm C18<br />
00D-4455-P0-AX<br />
Jupiter 10 µm C4<br />
00D-4168-P0-AX<br />
Jupiter 10 µm Proteo<br />
00D-4397-P0-AX<br />
Luna 5 µm C18(2)<br />
00D-4252-P0-AX<br />
Luna 10 µm C18(2)<br />
00D-4253-P0-AX<br />
Luna 5 µm C8(2)<br />
00D-4249-P0-AX<br />
Luna 10 µm C5<br />
00D-4092-P0-AX<br />
Luna 5 µm PFP(2)<br />
00D-4448-P0-AX<br />
Luna 5 µm Phenyl-Hexyl 00D-4257-P0-AX<br />
Luna 5 µm NH 2<br />
00D-4378-P0-AX<br />
Luna 5 µm HILIC<br />
00D-4450-P0-AX<br />
Luna 5 µm Silica (2)<br />
00D-4274-P0-AX<br />
Lux 5 µm Amylose-2<br />
00D-4472-P0-AX<br />
Lux 5 µm Cellulose-1<br />
00D-4459-P0-AX<br />
Lux 5 µm Cellulose-2<br />
00D-4457-P0-AX<br />
Synergi 4 µm Fusion-RP 00D-4424-P0-AX<br />
Synergi 4 µm Max-RP<br />
00D-4337-P0-AX<br />
Synergi 10 µm Max-RP 00D-4350-P0-AX<br />
Synergi 4 µm Hydro-RP 00D-4375-P0-AX<br />
Synergi 4 µm Polar-RP 00D-4336-P0-AX<br />
150 x 21.2 mm<br />
Gemini 5 µm C18<br />
00F-4435-P0-AX<br />
Gemini 10 µm C18<br />
00F-4436-P0-AX<br />
Gemini 5 µm C6-Phenyl 00F-4444-P0-AX<br />
Gemini-NX 5 µm C18<br />
00F-4454-P0-AX<br />
Gemini-NX 10 µm C18<br />
00F-4455-P0-AX<br />
Luna 5 µm C18(2)<br />
00F-4252-P0-AX<br />
Luna 10 µm C18(2)<br />
00F-4253-P0-AX<br />
Luna 5 µm C8(2)<br />
00F-4249-P0-AX<br />
Luna 10 µm C8(2)<br />
00F-4250-P0-AX<br />
Luna 5 µm CN<br />
00F-4255-P0-AX<br />
Luna 5 µm NH 2<br />
00F-4378-P0-AX<br />
Luna 5 µm PFP(2)<br />
00F-4448-P0-AX<br />
Luna 5 µm Phenyl-Hexyl 00F-4257-P0-AX<br />
Luna 5 µm HILIC<br />
00F-4450-P0-AX<br />
Luna 5 µm Silica(2)<br />
00F-4274-P0-AX<br />
Phases<br />
150 x 21.2 mm (cont’d)<br />
Lux 5 µm Amylose-2<br />
Lux 5 µm Cellulose-1<br />
Lux 5 µm Cellulose-2<br />
Synergi 4 µm Max-RP<br />
Synergi 4 µm Hydro-RP<br />
Synergi 4 µm Polar-RP<br />
Synergi 4 µm Fusion-RP<br />
250 x 21.2 mm<br />
Gemini 5 µm C18<br />
Gemini 10 µm C18<br />
Gemini 5 µm C6-Phenyl<br />
Gemini-NX 5 µm C18<br />
Gemini-NX 10 µm C18<br />
Jupiter 10 µm C4<br />
Jupiter 4 µm Proteo<br />
Jupiter 10 µm Proteo<br />
Luna 5 µm C18(2)<br />
Luna 10 µm C18(2)<br />
Luna 5 µm C8(2)<br />
Luna 10 µm C8(2)<br />
Luna 10 µm C5<br />
Luna 5 µm CN<br />
Luna 5 µm NH 2<br />
Luna 5 µm PFP(2)<br />
Luna 5 µm Phenyl-Hexyl<br />
Luna 5 µm Silica(2)<br />
Luna 10 µm Silica(2)<br />
Lux 5 µm Amylose-2<br />
Lux 5 µm Cellulose-1<br />
Lux 5 µm Cellulose-2<br />
Lux 5 µm Cellulose-3<br />
Lux 5 µm Cellulose-4<br />
Synergi 4 µm Max-RP<br />
Synergi 4 µm Hydro-RP<br />
Synergi 4 µm Polar-RP<br />
Synergi 4 µm Fusion-RP<br />
SecurityGuard PREP System<br />
(Highly recommended for extending column lifetime)<br />
Protect your Axia Packed column and prolong its lifetime with Security-<br />
Guard , the advanced HPLC guard cartridge system.<br />
• Get full protection with minimal impact on your chromatographic results.<br />
• <strong>Co</strong>ntaminants are retained by an inexpensive, 15 x 21.2 or 15 x 30 mm ID<br />
disposable cartridge<br />
Ordering Information<br />
Part No.<br />
00F-4472-P0-AX<br />
00F-4459-P0-AX<br />
00F-4457-P0-AX<br />
00F-4337-P0-AX<br />
00F-4375-P0-AX<br />
00F-4336-P0-AX<br />
00F-4424-P0-AX<br />
00G-4435-P0-AX<br />
00G-4436-P0-AX<br />
00G-4444-P0-AX<br />
00G-4454-P0-AX<br />
00G-4455-P0-AX<br />
00G-4168-P0-AX<br />
00G-4396-P0-AX<br />
00G-4397-P0-AX<br />
00G-4252-P0-AX<br />
00G-4253-P0-AX<br />
00G-4249-P0-AX<br />
00G-4250-P0-AX<br />
00G-4092-P0-AX<br />
00G-4255-P0-AX<br />
00G-4378-P0-AX<br />
00G-4448-P0-AX<br />
00G-4257-P0-AX<br />
00G-4274-P0-AX<br />
00G-4091-P0-AX<br />
00G-4472-P0-AX<br />
00G-4459-P0-AX<br />
00G-4457-P0-AX<br />
00G-4493-P0-AX<br />
00G-4491-P0-AX<br />
00G-4337-P0-AX<br />
00G-4375-P0-AX<br />
00G-4336-P0-AX<br />
00G-4424-P0-AX<br />
SecurityGuard PREP System<br />
Part No. Description Unit<br />
AJ0-8223 SecurityGuard PREP HPLC Guard Cartridge ea<br />
Holder Kit, 21.2 mm ID, includes column coupler<br />
AJ0-8277 SecurityGuard PREP HPLC Guard Cartridge<br />
Holder Kit, 30.0 mm ID, includes column coupler<br />
ea<br />
For additional sizes not displayed, please visit the individual<br />
product pages or contact your Phenomenex technical<br />
consultant or local distributor.<br />
Phenomenex international@phenomenex.com www.phenomenex.com<br />
59
Axia <br />
Packed Preparative HPLC<br />
U.S. Patent No. 7, 674, 383<br />
Preparative HPLC<br />
Ordering Information (cont’d)<br />
Phases<br />
50 x 30 mm<br />
Gemini 5 µm C18<br />
Gemini 10 µm C18<br />
Gemini-NX 5 µm C18<br />
Gemini-NX 10 µm C18<br />
Luna 5 µm C18(2)<br />
Luna 10 µm C18(2)<br />
Luna 5 µm C8(2)<br />
Luna 10 µm C8(2)<br />
Luna 5 µm Phenyl-Hexyl<br />
Luna 5 µm PFP(2)<br />
Luna 5 µm Silica(2)<br />
Synergi 4 µm Max-RP<br />
Synergi 10 µm Max-RP<br />
Synergi 4 µm Hydro-RP<br />
Synergi 10 µm Hydro-RP<br />
Synergi 4 µm Polar-RP<br />
Synergi 10 µm Polar-RP<br />
75 x 30 mm<br />
Gemini 5 µm C18<br />
Gemini 5 µm C6-Phenyl<br />
Gemini-NX 5 µm C18<br />
Luna 5 µm C18(2)<br />
Luna 10 µm C18(2)<br />
Luna 5 µm C8(2)<br />
Luna 5 µm Phenyl-Hexyl<br />
Synergi 4 µm Max-RP<br />
Synergi 4 µm Hydro-RP<br />
Synergi 4 µm Polar-RP<br />
100 x 30 mm<br />
Gemini 5 µm C18<br />
Gemini 10 µm C18<br />
Gemini 5 µm C6-Phenyl<br />
Gemini-NX 5 µm C18<br />
Gemini-NX 10 µm C18<br />
Jupiter 10 µm C18<br />
Jupiter 10 µm Proteo<br />
Luna 5 µm C18(2)<br />
Luna 10 µm C18(2)<br />
Luna 5 µm C8(2)<br />
Luna 5 µm CN<br />
Luna 5 µm NH 2<br />
Luna 5 µm PFP(2)<br />
Luna 5 µm Phenyl-Hexyl<br />
Luna 5 µm Silica(2)<br />
Lux 5 µm Amylose-2<br />
Lux 5 µm Cellulose-1<br />
Lux 5 µm Cellulose-2<br />
Synergi 4 µm Max-RP<br />
Synergi 10 µm Max-RP<br />
Synergi 4 µm Hydro-RP<br />
Synergi 4 µm Polar-RP<br />
Synergi 10 µm Polar-RP<br />
Synergi 4 µm Fusion-RP<br />
Synergi 10 µm Fusion-RP<br />
Part No.<br />
00B-4435-U0-AX<br />
00B-4436-U0-AX<br />
00B-4454-U0-AX<br />
00B-4455-U0-AX<br />
00B-4252-U0-AX<br />
00B-4253-U0-AX<br />
00B-4249-U0-AX<br />
00B-4250-U0-AX<br />
00B-4257-U0-AX<br />
00B-4448-U0-AX<br />
00B-4274-U0-AX<br />
00B-4337-U0-AX<br />
00B-4350-U0-AX<br />
00B-4375-U0-AX<br />
00B-4376-U0-AX<br />
00B-4336-U0-AX<br />
00B-4351-U0-AX<br />
00C-4435-U0-AX<br />
00C-4444-U0-AX<br />
00C-4454-U0-AX<br />
00C-4252-U0-AX<br />
00C-4253-U0-AX<br />
00C-4249-U0-AX<br />
00C-4257-U0-AX<br />
00C-4337-U0-AX<br />
00C-4375-U0-AX<br />
00C-4336-U0-AX<br />
00D-4435-U0-AX<br />
00D-4436-U0-AX<br />
00D-4444-U0-AX<br />
00D-4454-U0-AX<br />
00D-4455-U0-AX<br />
00D-4055-U0-AX<br />
00D-4397-U0-AX<br />
00D-4252-U0-AX<br />
00D-4253-U0-AX<br />
00D-4249-U0-AX<br />
00D-4255-U0-AX<br />
00D-4378-U0-AX<br />
00D-4448-U0-AX<br />
00D-4257-U0-AX<br />
00D-4274-U0-AX<br />
00D-4472-U0-AX<br />
00D-4459-U0-AX<br />
00D-4457-U0-AX<br />
00D-4337-U0-AX<br />
00D-4350-U0-AX<br />
00D-4375-U0-AX<br />
00D-4336-U0-AX<br />
00D-4351-U0-AX<br />
00D-4424-U0-AX<br />
00D-4425-U0-AX<br />
For additional sizes not displayed, please visit the individual<br />
product pages or contact your Phenomenex technical<br />
consultant or local distributor.<br />
Phases<br />
150 x 30 mm<br />
Gemini 5 µm C18<br />
Gemini 10 µm C18<br />
Gemini-NX 5 µm C18<br />
Gemini-NX 10 µm C18<br />
Luna 5 µm C18(2)<br />
Luna 10 µm C18(2)<br />
Luna 5 µm NH 2<br />
Luna 5 µm PFP(2)<br />
Lux 5 µm Amylose-2<br />
Lux 5 µm Cellulose-1<br />
Lux 5 µm Cellulose-2<br />
Synergi 4 µm Polar-RP<br />
250 x 30 mm<br />
Gemini 5 µm C18<br />
Gemini 10 µm C18<br />
Gemini-NX 5 µm C18<br />
Gemini-NX 10 µm C18<br />
Jupiter 10 µm C18<br />
Jupiter 10 µm C4<br />
Jupiter 4 µm Proteo<br />
Jupiter 10 µm Proteo<br />
Luna 5 µm C18(2)<br />
Luna 10 µm C18(2)<br />
Luna 5 µm C8(2)<br />
Luna 10 µm C5<br />
Luna 5 µm CN<br />
Luna 5 µm NH 2<br />
Luna 5 µm PFP(2)<br />
Luna 5 µm HILIC<br />
Luna 5 µm Silica(2)<br />
Lux 5 µm Amylose-2<br />
Lux 5 µm Cellulose-1<br />
Lux 5 µm Cellulose-2<br />
Synergi 4 µm Polar-RP<br />
50 x 50 mm<br />
Gemini 5 µm C18<br />
Gemini 10 µm C18<br />
Gemini-NX 5 µm C18<br />
Gemini-NX 10 µm C18<br />
Luna 5 µm C18(2)<br />
Luna 10 µm C18(2)<br />
Luna 10 µm Phenyl-Hexyl<br />
100 x 50 mm<br />
Gemini 10 µm C18<br />
Gemini-NX 10 µm C18<br />
Luna 10 µm C18(2)<br />
150 x 50 mm<br />
Gemini 10 µm C18<br />
Gemini-NX 10 µm C18<br />
Luna 5 µm PFP(2)<br />
250 x 50 mm<br />
Gemini 10 µm C18<br />
Gemini-NX 10 µm C18<br />
Luna 10 µm C18(2)<br />
Luna 15 µm C18(2)<br />
Luna 10 µm C8(2)<br />
Luna 15 µm C8(2)<br />
Luna 10 µm C5<br />
Luna 5 µm HILIC<br />
Lux 5 µm Amylose-2<br />
Lux 5 µm Cellulose-1<br />
Lux 5 µm Cellulose-2<br />
Part No.<br />
00F-4435-U0-AX<br />
00F-4436-U0-AX<br />
00F-4454-U0-AX<br />
00F-4455-U0-AX<br />
00F-4252-U0-AX<br />
00F-4253-U0-AX<br />
00F-4378-U0-AX<br />
00F-4448-U0-AX<br />
00F-4472-U0-AX<br />
00F-4459-U0-AX<br />
00F-4457-U0-AX<br />
00F-4336-U0-AX<br />
00G-4435-U0-AX<br />
00G-4436-U0-AX<br />
00G-4454-U0-AX<br />
00G-4455-U0-AX<br />
00G-4055-U0-AX<br />
00G-4168-U0-AX<br />
00G-4396-U0-AX<br />
00G-4397-U0-AX<br />
00G-4252-U0-AX<br />
00G-4253-U0-AX<br />
00G-4249-U0-AX<br />
00G-4092-U0-AX<br />
00G-4255-U0-AX<br />
00G-4378-U0-AX<br />
00G-4448-U0-AX<br />
00G-4450-U0-AX<br />
00G-4274-U0-AX<br />
00G-4472-U0-AX<br />
00G-4459-U0-AX<br />
00G-4457-U0-AX<br />
00G-4336-U0-AX<br />
00B-4435-V0-AX<br />
00B-4436-V0-AX<br />
00B-4454-V0-AX<br />
00B-4455-V0-AX<br />
00B-4252-V0-AX<br />
00B-4253-V0-AX<br />
00B-4285-V0-AX<br />
00D-4436-V0-AX<br />
00D-4455-V0-AX<br />
00D-4253-V0-AX<br />
00F-4436-V0-AX<br />
00F-4455-V0-AX<br />
00F-4448-V0-AX<br />
00G-4436-V0-AX<br />
00G-4455-V0-AX<br />
00G-4253-V0-AX<br />
00G-4273-V0-AX<br />
00G-4250-V0-AX<br />
00G-4272-V0-AX<br />
00G-4092-V0-AX<br />
00G-4450-V0-AX<br />
00G-4472-V0-AX<br />
00G-4459-V0-AX<br />
00G-4457-V0-AX<br />
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Phenomenex