Literaturliste Mikrowellen- aufschluß - Cem
Literaturliste Mikrowellen- aufschluß - Cem
Literaturliste Mikrowellen- aufschluß - Cem
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metal oxides (Fe, Cu,<br />
Zn, Co)<br />
water samples The development of continuous flow Kim, Youn Doo; Lee, Gae Ho; Kim,<br />
method through microwave oven for Hyung Seung; Kim, Dong Soo; Park,<br />
the analysis of metal oxides in water byKwang<br />
Kyu<br />
ICP-AES<br />
J. Korean Chem. Soc. (1994), 38(8), 576-84<br />
(Korean)<br />
As, Cd, Pb tuna, salmon, shrimp, walleye, Microwave digestion for the<br />
Sheppard, Brenda S.; Heitkemper, Analyst (Cambridge, U. K.) (1994), 119(8), 1683-6<br />
clams, oysters, lobster<br />
determination of arsenic, cadmium and Douglas T.; Gaston, Cynthia M.<br />
lead in seafood products by inductively<br />
coupled plasma atomic emission and<br />
mass spectrometry<br />
(English)<br />
Se mussels Orthogonal array design as a Lan, Wei Guang; Wong, Ming Keong; Analyst (Cambridge, U. K.) (1994), 119(8), 1669-75<br />
chemometric method for the<br />
optimization of analytical procedures.<br />
Part 2. Four-level design and its<br />
application in microwave dissolution of<br />
biological samples<br />
Chen, Ni; Sin, Yoke Min<br />
(English)<br />
Se mussels Orthogonal array design as a Lan, Wei Guang; Wong, Ming Keong; Analyst (Cambridge, U. K.) (1994), 119(8), 1659-67<br />
chemometric method for the<br />
optimization of analytical procedures.<br />
Part 1. Two-level design and its<br />
application in microwave dissolution of<br />
biological samples<br />
Chen, Ni; Sin, Yoke Min<br />
(English)<br />
arsenate, arsenite, alga Bioaccumulation and excretion of Cullen, William R.; Harrison, Lionel G.; Li Appl. Organomet. Chem. (1994), 8(4), 313-24<br />
monomethylarsonate,<br />
arsenic compounds by a marine Hao; Hewitt, Gary<br />
(English)<br />
dimethylarsinic acid<br />
unicellular alga, Polyphysa peniculus<br />
plant, tissue Moderated pressure microwave<br />
digestion system for preparation of<br />
biological samples<br />
Al 13 different types of bread,<br />
30 types of fish<br />
Se, B plant tissue<br />
Closed-vessel microwave acid<br />
digestion of foodstuffs and trace<br />
aluminum determination by graphite<br />
furnace atomic absorption<br />
spectrometry<br />
Focused microwaves in analytical<br />
chemistry. Applications<br />
Heltai, Gyorgy; Percsich, Kalman Talanta (1994), 41(7), 1067-72<br />
(English)<br />
Yang, Qing; Penninckx, Wim; Smeyers-<br />
Verbeke, Johanna<br />
J. Agric. Food Chem. (1994), 42(9), 1948-53<br />
(English)<br />
Hita, Luis Tec. Lab. (1993), 15(186), 706-11<br />
(Spanish)<br />
B plant material, wheat, milk, meat, Boron analysis in biological material: Evans, Susan; Kraehenbuehl, Urs Fresenius' J. Anal. Chem. (1994), 349(6), 454-9<br />
blood plasma<br />
microwave digestion procedure and<br />
determination by different methods<br />
(English)<br />
Al, Si, Fe biol. materials: NIST 1547, The use of modified microwave Fridlund, S.; Littlefield, S.; Rivers, J. Commun. Soil Sci. Plant Anal. (1994), 25(7-8), 933-41<br />
UCD 155, UCD 176, UCD 124, digestion /dissolution for the<br />
(English)<br />
UCD 190<br />
quantitative determination of aluminum<br />
silicon, and iron in biological materials<br />
by inductively coupled plasma<br />
spectrometry<br />
biol. samples including milk, Flow-through, microwave-heated Stewart, Laura J. Martines; Barnes, Analyst (Cambridge, U. K.) (1994), 119(5), 1003-10<br />
whole blood, urine<br />
digestion chamber for automated<br />
sample preparation prior to inductively<br />
coupled plasma spectrochemical<br />
analysis<br />
Ramon M.<br />
(English)<br />
Fe, Si, Ca, Cr, Mn, Ti, FeSi alloys<br />
Multielement analysis of some high Hlavackova, I.; Hlavacek, I. J. Anal. At. Spectrom. (1994), 9(3), 251-5<br />
Zr, Al, Cu, Hf, Ni, Ru<br />
silicon content ferroalloys by<br />
inductively coupled plasma atomic<br />
emission spectrometry<br />
(English)<br />
Chemical characterization of air Sun, Benjing (1993) 254 pp. Avail.: Univ. Microfilms Int., Order No.<br />
pollutants in the ambient environment<br />
DA9406305 From: Diss. Abstr. Int. B 1994, 54(9), 4641<br />
and stack emissions using PIXE and<br />
other techniques<br />
(English)<br />
Po plant and animal tissue Recovery of polonium from microwave Towler, P. H.; Smith, J. D. Anal. Chim. Acta (1994), 292(1-2), 209-12<br />
bomb digestions<br />
(English)<br />
Pb, Cd dust samples<br />
Digestion of dust samples in a Feng, Y.; Barratt, R. S.<br />
Sci. Total Environ. (1994), 143(2-3), 157-61<br />
microwave oven<br />
(English)<br />
COD waste water<br />
Determining the chemical oxygen Dong, Qinglin; Tian, Hongjun<br />
Huanjing Baohu (Beijing) (1992), (11), 35-6<br />
demand by using microwave digestion<br />
(Chinese)<br />
sugar soil samples<br />
Rapid determination of total content of Gao, Qi; Fan, Cailing; Wei, Jianhe Fenxi Huaxue (1994), 22(4), 418<br />
sugar in soil samples using microwaveheating<br />
digestion<br />
(Chinese)<br />
Ru serum, tumor tissues, liver, kidneyFlameless<br />
atomic absorption Formento, M. L.; Spadacini, S.; Analusis (1994), 22(3), 158-60<br />
spectrometry after acid microwave<br />
digestion : a precise and sensitive<br />
method for the determination of<br />
ruthenium in biological samples<br />
Ceserani, R.<br />
(English)<br />
aesenite, arsenate,<br />
Speciation of arsenic compounds by Le, Xiao Chun; Cullen, William R.; Talanta (1994), 41(4), 495-502<br />
monomethylarsonic<br />
HPLC with hydride generation atomic Reimer, Kenneth J.<br />
(English)<br />
acid,<br />
absorption spectrometry and<br />
dimethylarsinic acid<br />
inductively coupled plasma mass<br />
spectrometry detection<br />
BaAl2O4, CoO,<br />
Inorganic Microwave Digestions Zehr, Bradley D.; VanKuren, Judith P.; Anal. Chem. (1994), 66(13), 2194-6<br />
MoO2, MoO3, ThO2,<br />
WO2, W2O5, W4O11,<br />
WO3 Incorporating Bases<br />
McMahon, Hugh M.<br />
(English)<br />
Ca, Mg, K, P, Na, plant sample<br />
Comparison of microwave digestion , Matejovic, Igor; Durackova, Anna Commun. Soil Sci. Plant Anal. (1994), 25(9-10), 1277-88<br />
Fe, Zn, Cu, Mn<br />
wet and dry mineralization, and<br />
solubilization of plant sample for<br />
determination of calcium, magnesium,<br />
potassium, phosphorus, sodium, iron,<br />
zinc, copper, and manganese<br />
(English)<br />
environmental samples<br />
Br- samples for a total diet<br />
Comparison of microwave digestion Banuelos, G. S.; Akohoue, S. Commun. Soil Sci. Plant Anal. (1994), 25(9-10), 1655-70<br />
with block digestion for selenium and<br />
boron analysis in plant tissues<br />
(English)<br />
Pretreatment methods of Huang, Junxiong Huanjing Huaxue (1994), 13(2), 181-93<br />
environmental samples: current status<br />
and progress. Part (2)<br />
(Chinese)<br />
Determination of Bromide Ions in Food Miyahara, Makoto; Saito, Yukio J. Agric. Food Chem. (1994), 42(5), 1126-31<br />
by Unsuppressed Ion Chromatography<br />
with Ultraviolet Detection after<br />
Microwave Digestion in a Sealed<br />
PTFE Vessel<br />
(English)<br />
Microwave decomposition of minerals Labrek, Dzh. M. Probopodgot. v Mikrovoln. Pechakh: Teoriya i Prakt., M.<br />
under pressure, controlled manually (1991) 269-305 From: Ref. Zh., Khim. 1991, Abstr. No. 24G22<br />
and with robots (Russian)<br />
Literatur-MW-Aufschluß 145