Characterization of an Aerodyne Aerosol Mass Spectrometer (AMS ...
Characterization of an Aerodyne Aerosol Mass Spectrometer (AMS ...
Characterization of an Aerodyne Aerosol Mass Spectrometer (AMS ...
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770 N. TAKEGAWA ET AL.<br />
Org<strong>an</strong>ic Carbon using a Thermal-Optical Method, Atmos. Environ. 38:2885–<br />
2893.<br />
Birch, M. E., <strong>an</strong>d Cary, R. A. (1996). Elemental Carbon-Based Method for<br />
Monitoring Occupational Exposures to Particulate Diesel Exhaust, <strong>Aerosol</strong><br />
Sci. Technol. 25(3):221–241.<br />
Boudries, H., C<strong>an</strong>agaratna, M. R., Jayne, J. T. et al. (2004). Chemical <strong>an</strong>d Physical<br />
Processes Controlling the Distribution <strong>of</strong> <strong>Aerosol</strong>s in the Lower Fraser<br />
Valley, C<strong>an</strong>ada, during the PACIFIC 2001 Field Campaign, Atmos. Environ.<br />
38:5759–5774.<br />
DeCarlo, P., Slowik, J. G., Worsnop, D. R., Davidovits, P., <strong>an</strong>d Jimenez, J. L.<br />
(2004). Particle Morphology <strong>an</strong>d Density <strong>Characterization</strong> by Combined Mobility<br />
<strong>an</strong>d Aerodynamic Diameter Measurements. Part 1: Theory, <strong>Aerosol</strong> Sci.<br />
Technol. 38:1185–1205.<br />
Drewnick, F., Schwab, J. J., Hogrefe, O. et al. (2003). Intercomparison <strong>an</strong>d Evaluation<br />
<strong>of</strong> Four Semi-Continuous PM2.5 Sulfate Instruments, Atmos. Environ.<br />
37:3335–3350.<br />
Hogrefe, O., Schwab, J. J., Drewnick, F. et al. (2004). Semicontinuous PM2.5<br />
Sulfate <strong>an</strong>d Nitrate Measurements at <strong>an</strong> Urb<strong>an</strong> <strong>an</strong>d a Rural Location in New<br />
York: PMTACS-NY Summer 2001 <strong>an</strong>d 2002 Campaigns, J. Air Waste M<strong>an</strong>ag.<br />
Assoc. 54:1040–1060.<br />
Jayne, J. T., Leard, D. C., Zh<strong>an</strong>g, X. F. et al. (2000). Development <strong>of</strong> <strong>an</strong> <strong>Aerosol</strong><br />
<strong>Mass</strong> <strong>Spectrometer</strong> for Size <strong>an</strong>d Composition Analysis <strong>of</strong> Submicron Particles,<br />
<strong>Aerosol</strong> Sci. Technol. 33:49–70.<br />
Jimenez, J. L., Jayne, J. T., Shi, Q. et al. (2003a). Ambient <strong>Aerosol</strong> Sampling<br />
using the <strong>Aerodyne</strong> <strong>Aerosol</strong> <strong>Mass</strong> <strong>Spectrometer</strong>, J. Geophys. Res., 108:8425.<br />
Jimenez, J. L., Bahreini, R., Cocker, D. R. et al. (2003b). New Particle Formation<br />
from Photooxidation <strong>of</strong> Diiodometh<strong>an</strong>e (CH2I2), J. Geophys. Res. 108:4318.<br />
Liu, P., Ziem<strong>an</strong>n, P. J., Kittelson, D. B., <strong>an</strong>d McMurry, P. H. (1995). Generating<br />
Particle Beams <strong>of</strong> Controlled Dimensions <strong>an</strong>d Divergence: I. Theory <strong>of</strong><br />
Particle Motion in Aerodynamic Lenses <strong>an</strong>d Nozzle Exp<strong>an</strong>sions, <strong>Aerosol</strong> Sci.<br />
Technol. 22:293–313.<br />
Ma, Y., Weber, R. J., Meier, K. et al. (2003). Intercomparisons <strong>of</strong> Airborne<br />
Measurements <strong>of</strong> <strong>Aerosol</strong> Ionic Chemical Composition during TRACE-P<br />
<strong>an</strong>d ACE-Asia, J. Geophys. Res. 109:D15S07.<br />
Ma, Y. (2004). Developments <strong>an</strong>d Improvements to the Particle-Into-Liquid<br />
Sampler (PILS) <strong>an</strong>d Its Application to Asi<strong>an</strong> Outflow Studies. Ph.D. thesis,<br />
Georgia Institute <strong>of</strong> Technology, Atl<strong>an</strong>ta, GA.<br />
McLafferty, F. W., <strong>an</strong>d F. Turecek (1993). Interpretation <strong>of</strong> <strong>Mass</strong> Spectra. Univ.<br />
Sci., Mill Valley, CA.<br />
McMurry, P. H. (2000). A Review <strong>of</strong> Atmospheric <strong>Aerosol</strong> Measurements,<br />
Atmos. Environ. 34:1959.<br />
Middlebrook, A. M., Murphy, D. M., Lee, S.-H. et al. (2003). A Comparison<br />
<strong>of</strong> Particle <strong>Mass</strong> <strong>Spectrometer</strong>s during the 1999 Atl<strong>an</strong>ta Supersite Project,<br />
J. Geophys. Res. 108:8424.<br />
Orsini, D., Ma, Y., Sulliv<strong>an</strong>, A., Sierau, B., Baum<strong>an</strong>n, K., <strong>an</strong>d Weber, R. (2003).<br />
Refinements to the Particle-Into-Liquid Sampler (PILS) for Ground <strong>an</strong>d Airborne<br />
Measurements <strong>of</strong> Water Soluble <strong>Aerosol</strong> Composition, Atmos. Environ.<br />
37:1243–1259.<br />
Russell, L. M. (2003). <strong>Aerosol</strong> Org<strong>an</strong>ic-<strong>Mass</strong>-to-Org<strong>an</strong>ic-Carbon Ratio Measurements,<br />
Environ. Sci. Technol. 37:2982–2987.<br />
Schneider, J., Borrm<strong>an</strong>n, S., Wollny, A. G. et al. (2004). Online <strong>Mass</strong> Spectrometric<br />
<strong>Aerosol</strong> Measurements during the MINOS Campaign (Crete, August<br />
2001), Atmos. Chem. Phys. 4:65–80.<br />
Slowik, J. G., Stainken, K., Davidovits, P. et al. (2004). Particle Morphology <strong>an</strong>d<br />
Density <strong>Characterization</strong> by Combined Mobility <strong>an</strong>d Aerodynamic Diameter<br />
Measurements. Part 2: Application to Combustion Generated Soot Particles<br />
as a Function <strong>of</strong> Fuel Equivalence Ratio, <strong>Aerosol</strong> Sci. Technol. 38:1206–1222.<br />
Topping, D., Coe, H., McFigg<strong>an</strong>s, G. et al. (2004). <strong>Aerosol</strong> Chemical Characteristics<br />
from Sampling Conducted on the Isl<strong>an</strong>d <strong>of</strong> Jeju, Korea during<br />
ACE-Asia, Atmos. Environ. 38:2111–2123.<br />
Turpin, B. J., <strong>an</strong>d Lim, H. J. (2001). Species Contributions to PM2.5 <strong>Mass</strong><br />
Concentrations: Revisiting Common Assumptions for Estimating Org<strong>an</strong>ic<br />
<strong>Mass</strong>, <strong>Aerosol</strong> Sci. Technol. 35:602–610.<br />
Weber, R. J., Orsini, D., Daun, Y., Lee, Y. N., Klotz, P. J., <strong>an</strong>d<br />
Brechtel, F. (2001). A Particle-Into-Liquid Collector for Rapid Measurements<br />
<strong>of</strong> <strong>Aerosol</strong> Bulk Chemical Composition, <strong>Aerosol</strong> Sci. Technol. 35:<br />
718–727.<br />
Weber, R. J., Orsini, D., Du<strong>an</strong>, Y. et al. (2003). Intercomparison <strong>of</strong> Near Real-<br />
Time Monitors <strong>of</strong> PM2.5 Nitrate <strong>an</strong>d Sulfate at the EPA Atl<strong>an</strong>ta Supersite,<br />
J. Geophys. Res. 108(D7).<br />
Zh<strong>an</strong>g, Q., C<strong>an</strong>agaratna, M. R., Jayne, J. T., Worsnop, D. R., <strong>an</strong>d Jimenez,<br />
J. L. (2005a). Time <strong>an</strong>d Size-Resolved Chemical Composition <strong>of</strong> Submicron<br />
Particles in Pittsburgh. Implications for <strong>Aerosol</strong> Sources <strong>an</strong>d Processes,<br />
J. Geophys. Res. 110:D07S09.<br />
Zh<strong>an</strong>g, X. F., Smith, K. A. Worsnop, D. R., Jimenez, J., Jayne, J. T., <strong>an</strong>d Kolb,<br />
C. E. (2002). A Numerical <strong>Characterization</strong> <strong>of</strong> Particle Beam Collimation by<br />
<strong>an</strong> Aerodynamic Lens-Nozzle System: Part I. An Individual Lens or Nozzle,<br />
<strong>Aerosol</strong> Sci. Technol. 36(5): 617–631.<br />
Zh<strong>an</strong>g, X., Smith, K. A., Worsnop, D. R. (2004). <strong>Characterization</strong> <strong>of</strong> Particle<br />
Beam Collimation: Part II Integrated Aerodynamic Lens-Nozzle System,<br />
<strong>Aerosol</strong> Sci. Technol. 38(6): 619–638.<br />
Zh<strong>an</strong>g, Q., Alfarra, M. R., Worsnop, D. R., All<strong>an</strong>, J. D., Coe, H., C<strong>an</strong>agaratna,<br />
M. R., <strong>an</strong>d Jimenez, J. L. (2005b). Deconvolution <strong>an</strong>d Qu<strong>an</strong>tification <strong>of</strong> Primary<br />
<strong>an</strong>d Oxygenated Org<strong>an</strong>ic <strong>Aerosol</strong>s Based on <strong>Aerosol</strong> <strong>Mass</strong> Spectrometry.<br />
Environ. Sci. Technol. 39: 4938–4952.<br />
Ziem<strong>an</strong>n, P. J., Liu, P., Rao, N. P., Kittleson, D. B., <strong>an</strong>d McMurry, P. H. (1995).<br />
Particle Beam <strong>Mass</strong> Spectrometry <strong>of</strong> Submicron Particles Charged to Saturation<br />
in <strong>an</strong> Electron Beam, J. <strong>Aerosol</strong> Sci. 26:745–756.
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