Single Particle Analysis Bibliography
Compiled by
1. Koopman DW. Ion emission from laser-produced plasmas. Physics of Fluids 1967;10:2091-3.
2. Sinha MP, Giffin CE, Norris DD, Estes TJ, Vilker VL, Friedlander SK. Particle Analysis by Mass-Spectrometry. Journal of Colloid and Interface Science 1982;87(1):140-53.
3. Sinha MP, Platz R. Analysis of Biological Particles by Mass-Spectrometry. Aerosol Science and Technology 1983;2(2):256-.
4. Sinha MP. Laser-Induced Volatilization and Ionization of Microparticles. Review of Scientific Instruments 1984;55(6):886-91.
5. Sinha MP, Platz RM, Vilker VL, Friedlander SK. Analysis of Individual Biological Particles by Mass-Spectrometry. International Journal of Mass Spectrometry and Ion Processes 1984;57(1):125-33.
6. Sinha MP, Friedlander SK. Real-Time Measurement of Sodium-Chloride in Individual Aerosol-Particles by Mass-Spectrometry. Analytical Chemistry 1985;57(9):1880-3.
7. Sinha MP, Platz
RM,
8. Sinha MP, Friedlander SK. Mass-Distribution of Chemical-Species in a Polydisperse Aerosol - Measurement of Sodium-Chloride in Particles by Mass-Spectrometry. Journal of Colloid and Interface Science 1986;112(2):573-82.
9. Marijnissen J, Scarlett B, Verheijen P. Proposed on-line aerosol analysis combining size determination, laser-induced fragmentation and time-of-flight mass spectroscopy. Journal of Aerosol Science 1988;19(7):1307-10.
10. Giggy CL,
11. Mandich ML, Reents WD, Kolenbrander KD. Chemical-Properties of Small Silicon Clusters. Pure and Applied Chemistry 1990;62(9):1653-60.
12. McKeown PJ, Johnston MV, Murphy DM. Online Single-Particle Analysis by Laser Desorption Mass-Spectrometry. Analytical Chemistry 1991;63(18):2069-73.
13. Bochert UK, Dannecker W. Single particle analysis of aerosols by atomic emission spectrometry. Journal of Aerosol Science 1992;23(Supplement 1):417-20.
14. Kievit O, Marijnissen JCM, Verheiljen PJT, Scarlett B. On-line measurement of particle size and composition. Journal of Aerosol Science 1992;23(Supplement 1):301-4.
15.
16. Murphy DM, Thomson DS, Kalyuzhny M. Measurements of the Composition of Single Aerosol-Particles. Abstracts of Papers of the American Chemical Society 1993;206:152-ANYL.
17. Prather KA. The Characterization of Atmospheric Aerosols Using Time-of-Flight Mass-Spectrometry. Abstracts of Papers of the American Chemical Society 1993;206:151-ANYL.
18. Reents WD, Swanson AG, Downey SW, et al. Approaching compositional analysis of single particles in air. In: Proceedings of the Annual Technical Meeting - Institute of Environmental Sciences; 1993; 1993. p. 87-90.
19. Thomson DS, Murphy DM. Laser-Induced Ion Formation Thresholds of Aerosol-Particles in a Vacuum. Applied Optics 1993;32(33):6818-26.
20. Weiss M, Marijnissen JCM, Verheijen PJT, Scarlett B. 19 P 07 On-line measurement of particle size and composition. Journal of Aerosol Science 1993;24(Supplement 1):S201-S2.
21. Yang M, Dale JM, Whitten WB, Ramsey JM. Optical and Mass-Spectrometry of Individual Microparticles in Electrodynamic Traps. Abstracts of Papers of the American Chemical Society 1993;206:154-ANYL.
22. Dale JM, Yang M, Whitten WB, Ramsey JM. Chemical Characterization of Single Particles by Laser Ablation/Desorption in a Quadrupole Ion-Trap Mass-Spectrometer. Analytical Chemistry 1994;66(20):3431-5.
23. Hinz KP, Kaufmann R, Spengler B. Laser-Induced Mass Analysis of Single Particles in the Airborne State. Analytical Chemistry 1994;66(13):2071-6.
24. Mansoori BA, Johnston MV,
25.
26.
27.
28. Noble CA, Nordmeyer T, Salt K, Morrical B, Prather KA. Aerosol Characterization Using Mass-Spectrometry. Trac-Trends in Analytical Chemistry 1994;13(5):218-22.
29. Nordmeyer T, Prather KA. Real-Time Measurement Capabilities Using Aerosol Time-of-Flight Mass-Spectrometry. Analytical Chemistry 1994;66(20):3540-2.
30. Prather KA, Nordmeyer T, Salt K. Real-Time Characterization of Individual Aerosol-Particles Using Time-of-Flight Mass-Spectrometry. Analytical Chemistry 1994;66(9):1403-7.
31. Reents WD, Downey SW,
32. Thomson DS, Murphy DM. Analyzing Single Aerosol-Particles in Real-Time - Composition Analysis of Aerosols Is Critical to an Understanding of Their Origins and Fate - This Is Done by Combining Time-of-Flight Mass-Spectroscopy with Optical-Particle Detections and Sizing. Chemtech 1994;24(12):30-5.
33.
34. Hinz K-P, Spengler B, Kaufmann R. On-line size and composition analysis of particles from ambient aerosols by laser mass spectrometry (LAMPAS). Journal of Aerosol Science
Abstracts of the 1995 European Aerosol Conference 1995;26(Supplement 1):S65-S6.
35.
36. Murphy DM, Thomson DS. Laser Ionization Mass-Spectroscopy of Single Aerosol-Particles. Aerosol Science and Technology 1995;22(3):237-49.
37. Neubauer KR, Johnston MV,
38. Noble CA, Salt K, Prather KA. Aerosol-Particle Size Analysis Using Light-Scattering and Aerodynamic Sizing Methods. Abstracts of Papers of the American Chemical Society 1995;209:36-ANYL.
39. Nordmeyer T, Prather KA. Real-Time Analysis of Ambient Aerosols for Size and Chemical-Composition Using Aerosol Time-of-Flight Mass-Spectrometry (Atofms). Abstracts of Papers of the American Chemical Society 1995;209:38-ANYL.
40. Prather KA, Morrical BO. Online Single-Particle Analysis of Environmental Tobacco-Smoke. Abstracts of Papers of the American Chemical Society 1995;209:39-ANYL.
41. Reents WD,
42. Reents WD, Wang HC, Udischas R. Monitoring and identification of particles formed during pressure reduction. In: Proceedings of the Annual Technical Meeting - Institute of Environmental Sciences; 1995; 1995. p. 30-4.
43. Salt K, Prather KA. Analysis of Individual Inorganic Salt Particles Using Aerosol Time-of-Flight Mass-Spectrometry (Atofms). Abstracts of Papers of the American Chemical Society 1995;209:35-ANYL.
44. Thomson DS, Murphy DM. Mass-Spectroscopy of Single Aerosols from Field-Measurements. Abstracts of Papers of the American Chemical Society 1995;210:23-ENVR.
45. Weiss M, Verheijen PJT, Marijnissen JCM, Scarlett B. On-line tof-mass-spectrometry of aerosols: System characterisation. Journal of Aerosol Science
Abstracts of the 1995 European Aerosol Conference 1995;26(Supplement 1):S101-S2.
46. Whitten WB, Mo Y, Reilly PTA, Ramsey JM. Ion-Trap Mass-Spectroscopy of Individual Aerosol-Particles. Abstracts of Papers of the American Chemical Society 1995;210:25-ENVR.
47. Yang M, Dale JM, Whitten WB, Ramsey JM. Laser-Desorption Tandem Mass-Spectrometry of Individual Microparticles in an Ion-Trap Mass-Spectrometer. Analytical Chemistry 1995;67(23):4330-4.
48. Yang M, Whitten WB, Ramsey JM. Quadrupole Trap Control-Circuit for Laser-Desorption Mass-Spectrometry of Levitated Microparticles. Review of Scientific Instruments 1995;66(11):5222-5.
49. Yang M, Dale JM, Whitten WB, Ramsey JM. Laser-Desorption Mass-Spectrometry of a Levitated Single Microparticle in a Quadrupole Ion-Trap. Analytical Chemistry 1995;67(6):1021-5.
50. Zhan Q, Voumard P, Zenobi R. Application of 2-Step Laser Mass-Spectrometry to the Chemical-Analysis of Aerosol-Particle Surfaces. Rapid Communications in Mass Spectrometry 1995;9(2):119-27.
51. Fei X, Murray KK. On-line coupling of gel permeation chromatography with MALDI mass spectrometry. Analytical Chemistry 1996;68(20):3555-60.
52. Fei X, Wei G,
53. Ge ZZ,
54. Hinz KP, Kaufmann R, Spengler B. Simultaneous detection of positive and negative ions from single airborne particles by real-time laser mass spectrometry. Aerosol Science and Technology 1996;24(4):233-42.
55. Kievit O, Weiss M, Verheijen PJT, Marijnissen JCM, Scarlett B. The on-line chemical analysis of single particles using aerosol beams and time of flight mass spectrometry. Chemical Engineering Communications 1996;151:79-100.
56. Mansoori BA, Johnston MV,
57. Murphy DM. Field measurements of single particle composition. Abstracts of Papers of the American Chemical Society 1996;211:158-ANYL.
58. Neubauer KR,
59. Noble CA, Prather KA. Real-time measurement of correlated size and composition profiles of individual atmospheric aerosol particles. Environmental Science & Technology 1996;30(9):2667-80.
60. Peter T, Murphy DM. Airborne particle analysis - Response. Science 1996;274(5295):1996-7.
61. Peter T. Airborne particle analysis for climate studies. Science 1996;273(5280):1352-3.
62. Prather KA, Noble PA, Liu DY, Silva PJ, Fergenson DF. Ambient aerosol analysis using aerosol-time-of-flight mass spectrometry. Abstracts of Papers of the American Chemical Society 1996;211:159-ANYL.
63. Salt K, Noble CA, Prather KA. Aerodynamic particle sizing versus light scattering intensity measurement as methods for real time particle sizing coupled with time-of-flight mass spectrometry. Analytical Chemistry 1996;68(1):230-4.
64. Spengler B, Hinz KP, Kaufmann R. Airborne particle analysis. Science 1996;274(5295):1996-.
65. van Wuyckhuyse AL, Willemse AW, Marijnissen JCM, Scarlett B. Determination of on-line particle size and concentration for sub-micron particles at low concentrations. Journal of Aerosol Science 1996;27(Supplement 1):S577-S8.
66. Weiss M, Verheijen PJT, Marijnissen JCM, Scarlett B. On-line Chemical Analysis of Single Aerosol Particles. Journal of Aerosol Science 1996;27(Supplement 1):S289-S90.
67. Yang M, Reilly PTA, Boraas KB, Whitten WB, Ramsey JM. Real-time chemical analysis of aerosol particles using an ion trap mass spectrometer. Rapid Communications in Mass Spectrometry 1996;10(3):347-51.
68. Barnes MD, Lermer N, Kung CK, Whitten WB, Ramsey JM, Hill SC. Real-time observation of single-molecule fluorescence in microdroplet streams. Optics Letters 1997;22(16):1265-7.
69.
70.
71. Fergenson DP, Liu DY, Silva PJ, Prather KA. SpectraSort: A data analysis program for real-time aerosol analysis by aerosol time-of-flight mass spectrometry. Chemometrics and Intelligent Laboratory Systems 1997;37(1):197-203.
72. Gard E, Mayer JE, Morrical BD, Dienes T, Fergenson DP, Prather KA. Real-time analysis of individual atmospheric aerosol particles: Design and performance of a portable ATOFMS. Analytical Chemistry 1997;69(20):4083-91.
73. Gieray RA, Reilly PTA, Yang M, Whitten WB, Ramsey JM. Real-time detection of individual airborne bacteria. Journal of Microbiological Methods 1997;29(3):191-9.
74. Grootveld CJ, Weiss M, Marijnissen JCM, Scarlett B. Particle size dependent triggering of the on-line aerosol TOF mass spectrometer. Journal of Aerosol Science 1997;28(Supplement 1):S605-S6.
75. Gross DS, Prather KA. Real-time analysis of individual ambient aerosol particles. Abstracts of Papers of the American Chemical Society 1997;214:7-ANYL.
76. Hahn DW, Flower WL, Hencken KR. Discrete particle detection and metal emissions monitoring using laser-induced breakdown spectroscopy. Applied Spectroscopy 1997;51(12):1836-44.
77. Hinz K-P, Kaufmann R, Jung R, Greweling M, Drews F, Spengler B. Characterization of atmospheric particles using bipolar on-line laser mass spectrometry and multivariate classification. Journal of Aerosol Science 1997;28(Supplement 1):S305-S6.
78. Liu DY,
79. Mallina RV,
80. Middlebrook AM, Thomson DS, Murphy DM. On the purity of laboratory-generated sulfuric acid droplets and ambient particles studied by laser mass spectrometry. Aerosol Science and Technology 1997;27(3):293-307.
81. Murphy DM, Thomson DS, Middlebrook AM. Bromine, iodine, and chlorine in single aerosol particles at
82. Murphy DM, Thomson DS, Kaluzhny M, Marti JJ, Weber RJ. Aerosol characteristics at Idaho Hill during the OH Photochemistry Experiment. Journal of Geophysical Research-Atmospheres 1997;102(D5):6325-30.
83. Murphy DM, Thomson DS. Chemical composition of single aerosol particles at Idaho Hill: Positive ion measurements. Journal of Geophysical Research-Atmospheres 1997;102(D5):6341-52.
84. Murphy DM, Thomson DS. Chemical composition of single aerosol particles at Idaho Hill: Negative ion measurements. Journal of Geophysical Research-Atmospheres 1997;102(D5):6353-68.
85. Neubauer KR, Johnston MV,
86. Noble CA, Prather KA. Real-time single particle monitoring of a relative increase in marine aerosol concentration during winter rainstorms. Geophysical Research Letters 1997;24(22):2753-6.
87. Prather KA, Gard EE, Gross DS, Morrical BD. Real-time monitoring of the heterogeneous chemistry of sea salt particles in the atmosphere. Abstracts of Papers of the American Chemical Society 1997;214:223-PHYS.
88. Reilly PTA, Gieray RA, Yang M, Whitten WB, Ramsey JM. Tandem mass spectrometry of individual airborne microparticles. Analytical Chemistry 1997;69(1):36-9.
89. Silva PJ, Prather KA. On-line characterization of individual particles from automobile emissions. Environmental Science & Technology 1997;31(11):3074-80.
90. Thomson DS, Middlebrook AM, Murphy DM. Thresholds for laser-induced ion formation from aerosols in a vacuum using ultraviolet and vacuum-ultraviolet laser wavelengths. Aerosol Science and Technology 1997;26(6):544-59.
91. Weiss M, Verheijen PJT, Marijnissen JCM, Scarlett B. On the performance of an on-line time-of-flight mass spectrometer for aerosols. Journal of Aerosol Science 1997;28(1):159-71.
92. Yang M, Reilly PTA, Gieray RA, Whitten WB, Ramsey JM. Complete chemical analysis of aerosol particles in real-time. Journal of the Korean Physical Society 1997;30(2):359-63.
93. Ziemann PJ, McMurry PH. Spatial distribution of chemical components in aerosol particles as determined from secondary electron yield measurements: Implications for mechanisms of multicomponent aerosol crystallization. Journal of Colloid and Interface Science 1997;193(2):250-8.
94. Alvarez MM, Vezmar I, Whetten RL. On-line sampling and intact mass analysis of nanometer-size aerosols via time-of-flight high-mass spectrometry. Journal of Aerosol Science 1998;29(1-2):115-27.
95. Gard EE, Kleeman MJ, Gross DS, et al. Direct observation of heterogeneous chemistry in the atmosphere. Science 1998;279(5354):1184-7.
96. Ge ZZ,
97. Ge ZZ,
98. Gieray RA, Reilly PTA, Yang M, Whitten WB, Ramsey JM. Tandem mass spectrometry of uranium and uranium oxides in airborne particulates. Analytical Chemistry 1998;70(1):117-20.
99. Hahn DW. Laser-induced breakdown spectroscopy for sizing and elemental analysis of discrete aerosol particles. Applied Physics Letters 1998;72(23):2960-2.
100. Mansoori BA, Johnston MV,
101. Middlebrook AM, Murphy DM, Thomson DS. Observations of organic material in individual marine particles at
102. Morrical BD, Fergenson DP, Prather KA. Coupling two-step laser desorption/ionization with aerosol time-of-flight mass spectrometry for the analysis of individual organic particles. Journal of the American Society for Mass Spectrometry 1998;9(10):1068-73.
103. Murphy DM, Thomson DS, Mahoney TMJ. In situ measurements of organics, meteoritic material, mercury, and other elements in aerosols at 5 to 19 kilometers. Science 1998;282(5394):1664-9.
104. Murphy DM, Thomson DS, Middlebrook AM, Schein ME. In situ single-particle characterization at
105. Murphy DM, Anderson JR,
106. Neubauer KR, Johnston MV,
107. Noble CA, Prather KA. Single particle characterization of albuterol metered dose inhaler aerosol in near real-time. Aerosol Science and Technology 1998;29(4):294-306.
108. Noble CA, Prather KA. Aerosol time-of-flight mass spectrometry: a new method for performing real-time characterization of aerosol particles. Applied Occupational and Environmental Hygiene 1998;13:439-43.
109. Noble CA, Prather KA. Governments have regulated against air pollution since the 13th century, but effective controls require proper measurements of pollutants. Physics World 1998;11.
110. Reents WD, Ge ZZ. Real-time characterization of sub-micron particles: Size and elemental composition. Abstracts of Papers of the American Chemical Society 1998;216:U334-U.
111. Reilly PTA, Gieray RA, Whitten WB, Ramsey JM. Real-time characterization of the organic composition and size of individual diesel engine smoke particles. Environmental Science & Technology 1998;32(18):2672-9.
112. Wood SH, Prather KA. Time-of-flight mass spectrometry methods for real time analysis of individual aerosol particles. Trac-Trends in Analytical Chemistry 1998;17(6):346-56.
113. Ziemann PJ. Aerosol analysis. Trac-Trends in Analytical Chemistry 1998;17(6):321-.
114. Ziemann PJ. Particle mass and size measurement using mass spectrometry. Trac-Trends in Analytical Chemistry 1998;17(6):322-8.
115. Ziemann PJ, McMurry PH. Secondary electron yield measurements as a means for probing organic films on aerosol particles. Aerosol Science and Technology 1998;28(1):77-90.
116. Baer T, Cabalo J, Zelenyuk A, Miller RE. Two-color laser evaporation and laser ionization mass spectrometry of aerosol particles. Abstracts of Papers of the American Chemical Society 1999;217:U145-U.
117. Hinz KP, Greweling M, Drews F, Spengler B. Data processing in on-line laser mass spectrometry of inorganic, organic, or biological airborne particles. Journal of the American Society for Mass Spectrometry 1999;10(7):648-60.
118. Hughes LS, Allen JO, Kleeman MJ, et al. Size and composition distribution of atmospheric particles in southern California. Environmental Science & Technology 1999;33(20):3506-15.
119. Jervis RE, Tan PV, Evans GJ. Measurement of PM10/2.5
fractionated respirable particles in urban
120. Lazar A, Reilly PTA, Whitten WB, Ramsey JM. Real-time surface analysis of individual airborne environmental particles. Environmental Science & Technology 1999;33(22):3993-4001.
121. Liu DY, Hering SV, Prather KA. Real-time monitoring of particulate nitrate in the troposphere. Abstracts of Papers of the American Chemical Society 1999;217:U124-U.
122. Mallina RV,
123. Mansoori BA, Johnston MV,
124. Ramsey JL, Reilly PTA, Whitten WB. Real-time analysis of combustion derived aerosols using tandem mass spectrometry. Abstracts of Papers of the American Chemical Society 1999;217:U145-U.
125. Reilly PTA, Gieray RA, Whitten WB, Ramsey JM. Response to comment on "Real-time characterization of the organic composition and size of individual diesel engine smoke particles". Environmental Science & Technology 1999;33(21):3933-4.
126. Silva PJ, Liu DY, Noble CA, Prather KA. Size and chemical characterization of individual particles
resulting from biomass burning of local
127. Song XH, Hopke PK, Fergenson DP, Prather KA. Classification of single particles analyzed by ATOFMS using an artificial neural network, ART-2A. Analytical Chemistry 1999;71(4):860-5.
128. Suess DT, Prather KA. Mass spectrometry of aerosols. Chemical Reviews 1999;99(10):3007-+.
129. Whitten WB, Reilly P, Ramsey JM. Real-time size and chemical characterization of environmental particles using ion trap mass spectrometry. Abstracts of Papers of the American Chemical Society 1999;217:U137-U.
130. Wood SH, Prather KA. Real-time analysis of individual aerosol particles by aerosol time-of-flight mass spectrometry (ATOFMS). Abstracts of Papers of the American Chemical Society 1999;217:U123-U4.
131. Zelenyuk A, Cabalo J, Baer T, Miller RE. Mass spectrometry of liquid aniline aerosol particles by IR/UV laser irradiation. Analytical Chemistry 1999;71(9):1802-8.
132. Allen JO, Fergenson DP, Gard EE, et al. Particle detection efficiencies of aerosol time of flight mass spectrometers under ambient sampling conditions. Environmental Science & Technology 2000;34(1):211-7.
133. Boulter JE, Middlebrook AM, Murphy DM, Birks JW. Characterization of a low-pressure exchanging virtual impactor for in situ analysis of atmospheric aerosols. Abstracts of Papers of the American Chemical Society 2000;219:U316-U.
134. Cabalo J, Zelenyuk A, Baer T, Miller RE. Two-color laser induced evaporation dynamics of liquid aerosols probed by time-of-flight mass spectrometry. Aerosol Science and Technology 2000;33(1-2):3-19.
135. Coggiola MJ, Shi Z, Young SE. Airborne deployment of an instrument for the real-time analysis of single aerosol particles. Aerosol Science and Technology 2000;33(1-2):20-9.
136. Cziczo DJ, Thomson DS, Murphy DM. In situ measurements and laboratory studies of meteoritic material in stratospheric aerosols. Meteoritics & Planetary Science 2000;35:A46-A.
137. Gross DS, Warren BS, Barron AR, Liu DY, Wenzel RJ,
Prather KA. Real-time single particle information using the
Aerosol Time-of-Flight Mass Spectrometer at the Southern Center for the
Integrated Study of Secondary Air Pollutants (SCISSAP)
138. Gross DS, Galli ME, Silva PJ, Prather KA. Relative sensitivity factors for alkali metal and ammonium cations in single particle aerosol time-of-flight mass spectra. Analytical Chemistry 2000;72(2):416-22.
139. Gross DS, Galli ME, Silva PJ, Wood SH, Liu DY, Prather KA. Single particle characterization of automobile and diesel truck emissions in the Caldecott Tunnel. Aerosol Science and Technology 2000;32(2):152-63.
140. Hahn DW, Lunden MM. Detection and analysis of aerosol particles by laser-induced breakdown spectroscopy. Aerosol Science and Technology 2000;33(1-2):30-48.
141. Hughes LS, Allen JO, Bhave P, et al. Evolution of
atmospheric particles along trajectories crossing the
142.
143. Kane DB, Johnston MV. Size and composition biases on the detection of individual ultrafine particles by aerosol mass spectrometry. Environmental Science & Technology 2000;34(23):4887-93.
144. Lazar AC, Reilly PTA, Whitten WB, Ramsey JM. Laser desorption/ionization coupled to tandem mass spectrometry for real-time monitoring of paraquat on the surface of environmental particles. Rapid Communications in Mass Spectrometry 2000;14(16):1523-9.
145. Lazar AC, Reilly PTA, Whitten WB, Ramsey JM. Laser desorption/in situ chemical ionization aerosol mass spectrometry for monitoring tributyl phosphate on the surface of environmental particles. Analytical Chemistry 2000;72(9):2142-7.
146. Liu DY, Prather KA, Hering SV. Variations in the size
and chemical composition of nitrate-containing particles in
147. Mallina RV, Wexler AS, Rhoads KP, Johnston MV. High speed particle beam generation: A dynamic focusing mechanism for selecting ultrafine particles. Aerosol Science and Technology 2000;33(1-2):87-104.
148. Murphy DM, Thomson DS. Halogen ions and NO+ in the mass spectra of aerosols in the upper troposphere and lower stratosphere. Geophysical Research Letters 2000;27(19):3217-20.
149. Noble CA, Prather KA. Real-time single particle mass spectrometry: A historical review of a quarter century of the chemical analysis of aerosols. Mass Spectrometry Reviews 2000;19(4):248-74.
150. Parker EP, Trahan MW, Wagner JS, et al. Detection and classification of individual airborne microparticles using laser ablation mass spectroscopy and multivariate analysis. Field Analytical Chemistry and Technology 2000;4(1):31-42.
151. Petrucci GA, Farnsworth PB, Cavalli P, Omenetto N. A differentially pumped particle inlet for sampling of atmospheric aerosols into a time-of-flight mass spectrometer: Optical characterization of the particle beam. Aerosol Science and Technology 2000;33(1-2):105-21.
152. Reents WD, Ge ZZ. Simultaneous elemental composition and size distributions of submicron particles in real time using laser atomization/ionization mass spectrometry. Aerosol Science and Technology 2000;33(1-2):122-34.
153. Reents WD, Ge Z, Bower JE, Morris M, Patel S. Detection and characterization of individual submicron particles by laser mass spectrometry. Abstracts of Papers of the American Chemical Society 2000;219:U113-U.
154. Reilly PTA, Gieray RA, Whitten WB, Ramsey JM. Fullerene evolution in flame-generated soot. Journal of the American Chemical Society 2000;122(47):11596-601.
155. Reilly PTA, Lazar AC, Gieray RA, Whitten WB, Ramsey JM. The elucidation of charge-transfer-induced matrix effects in environmental aerosols via real-time aerosol mass spectral analysis of individual airborne particles. Aerosol Science and Technology 2000;33(1-2):135-52.
156. Reilly PTA, Gieray RA, Whitten WB, Ramsey JM. Direct observation of the evolution of the soot carbonization process in an acetylene diffusion flame via real-time aerosol mass spectrometry. Combustion and Flame 2000;122(1-2):90-104.
157. Rodgers RP, Lazar AC, Reilly PTA, Whitten WB, Ramsey JM. Direct determination of soil surface bound polycyclic aromatic hydrocarbons in petroleum-contaminated soils by real time aerosol mass spectrometry. Analytical Chemistry 2000;72(20):5040-6.
158. Silva PJ, Prather KA. Interpretation of mass spectra from organic compounds in aerosol time-of-flight mass spectrometry. Analytical Chemistry 2000;72(15):3553-62.
159. Silva PJ, Carlin RA, Prather KA. Single
particle analysis of suspended soil dust from
160. Stowers MA, van Wuijckhuijse AL, Marijnissen JCM, Scarlett B, van Baar BLM, Kientz CE. Application of matrix-assisted laser desorption/ionization to on-line aerosol time-of-flight mass spectrometry. Rapid Communications in Mass Spectrometry 2000;14(10):829-33.
161. Thomson DS, Schein ME, Murphy DM. Particle analysis by laser mass spectrometry WB-57F instrument overview. Aerosol Science and Technology 2000;33(1-2):153-69.
162. Trimborn A, Hinz KP, Spengler B. Online analysis of atmospheric particles with a transportable laser mass spectrometer. Aerosol Science and Technology 2000;33(1-2):191-201.
163. Wexler AS, Prather KA. Introduction: online single particle analysis. Aerosol Science and Technology 2000;33(1-2):1-2.
164. Angelino S, Suess DT, Prather KA. Formation of aerosol particles from reactions of secondary and tertiary alkylamines: Characterization by aerosol time-of-flight mass spectrometry. Environmental Science & Technology 2001;35(15):3130-8.
165. Bhave PV, Fergenson DP, Prather KA, Cass GR. Source apportionment of fine particulate matter by clustering single-particle data: Tests of receptor model accuracy. Environmental Science & Technology 2001;35(10):2060-72.
166. Cantrell W, Shaw G, Cass GR, et al. Closure between aerosol particles and cloud condensation nuclei at Kaashidhoo Climate Observatory. Journal of Geophysical Research-Atmospheres 2001;106(D22):28711-8.
167. Carranza JE, Fisher BT, Yoder GD, Hahn DW. On-line analysis of ambient air aerosols using laser-induced breakdown spectroscopy. Spectrochimica Acta Part B-Atomic Spectroscopy 2001;56(6):851-64.
168. Cziczo DJ, Murphy D, Thomson D, et al. Meteoritic and organic material in the atmosphere. Abstracts of Papers of the American Chemical Society 2001;221:U543-U.
169. Cziczo DJ, Abbatt JPD. Ice nucleation in NH4HSO4, NH4NO3, and H2SO4 aqueous particles: Implications for cirrus cloud formation. Geophysical Research Letters 2001;28(6):963-6.
170. Cziczo DJ, Thomson DS, Murphy DM. Ablation, flux, and atmospheric implications of meteors inferred from stratospheric aerosol. Science 2001;291(5509):1772-5.
171. Fergenson DP, Song XH, Ramadan Z, et al. Quantification of ATOFMS data by multivariate methods. Analytical Chemistry 2001;73(15):3535-41.
172. Galli M, Guazzotti SA, Prather KA. Improved lower particle size limit for aerosol time-of-flight mass spectrometry. Aerosol Science and Technology 2001;34(4):381-5.
173. Guazzotti SA, Coffee KR, Prather KA. Continuous measurements of size-resolved particle chemistry during INDOEX-Intensive Field Phase 99. Journal of Geophysical Research-Atmospheres 2001;106(D22):28607-27.
174. Guazzotti SA, Whiteaker JR, Suess D, Coffee KR,
Prather KA. Real-time measurements of the chemical composition of size-resolved
particles during a
175.
176. Kane DB, Oktem B, Johnston MV. An electrostatic lens for focusing charged particles in a mass spectrometer. Aerosol Science and Technology 2001;35(6):990-7.
177. Kane DB, Johnston MV. Enhancing the detection of sulfate particles for laser ablation aerosol mass spectrometry. Analytical Chemistry 2001;73(22):5365-9.
178. Kane DB, Oktem B, Johnston MV. Nanoparticle detection by aerosol mass spectrometry. Aerosol Science and Technology 2001;34(6):520-7.
179. Lelieveld J, Crutzen PJ, Ramanathan V, et al.
The Indian Ocean Experiment: Widespread air pollution from South and
180. Lighty JS, Sarofim AF, Kelly KE, et al. Characterization of fine particulate emissions from vehicles using real-time instruments. Abstracts of Papers of the American Chemical Society 2001;222:U478-U.
181. Middlebrook AM, Lee SH, Murphy DM, Thomson DS. Measurements of single particles from
182. Phares DJ, Rhoads KP, Wexler AS, Kane DB, Johnston MV. Application of the ART-2a algorithm to laser ablation aerosol mass spectrometry of particle standards. Analytical Chemistry 2001;73(10):2338-44.
183. Prather KA, Guazzotti SA, Suess DT, Pastor SH, Coffee K. New insights into the role of aerosols in affecting pollution and global climate change. Abstracts of Papers of the American Chemical Society 2001;221:U458-U.
184. Reents WD, Schabel MJ. Measurement of individual particle atomic composition by aerosol mass spectrometry. Analytical Chemistry 2001;73(22):5403-14.
185. Smith G, Hauser C, Baer T, Miller RE, Woods E. Reactions of ozone with organic aerosols analyzed by single-particle time-of-flight mass spectrometry. Abstracts of Papers of the American Chemical Society 2001;222:U232-U.
186. Song XH,
187. Wexler AS, Johnston MV. Real-Time
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190. Bhave PV, Allen JO, Morrical BD, Fergenson DP, Cass GR, Prather KA. A field-based approach for determining ATOFMS instrument sensitivities to ammonium and nitrate. Environmental Science & Technology 2002;36(22):4868-79.
191. Bhave PV, Kleeman MJ, Allen JO, Hughes LS. Evaluation of an air quality model for the size and composition of source-oriented particle classes. Environmental Science & Technology 2002;36(10):2154-63.
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197. Cziczo DJ, Murphy DM, Thomson DS, Ross MN. Composition of individual particles in the wakes of an Athena II rocket and the space shuttle. Geophysical Research Letters 2002;29(21).
198. DeForest CL, Qian J, Miller RE. Time-resolved studies of the interactions between pulsed lasers and aerosols. Applied Optics 2002;41(27):5804-13.
199. Held A, Hinz
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205. Mokhbat EA, Hahn DW. Laser-induced breakdown spectroscopy for the analysis of cobalt-chromium orthopaedic wear debris particles. Applied Spectroscopy 2002;56(8):984-93.
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209. Smith GD, Woods E, DeForest CL, Baer T, Miller RE. Reactive uptake of ozone by oleic acid aerosol particles: Application of single-particle mass spectrometry to heterogeneous reaction kinetics. Journal of Physical Chemistry A 2002;106(35):8085-95.
210. Suess DT, Prather KA. Reproducibility of single particle chemical composition during a heavy duty diesel truck dynamometer study. Aerosol Science and Technology 2002;36(12):1139-41.
211. Sykes DC, Woods E, Smith GD, Baer T, Miller RE. Thermal vaporization-vacuum ultraviolet laser ionization time-of-flight mass spectrometry of single aerosol particles. Analytical Chemistry 2002;74(9):2048-52.
212. Tan PV, Fila MS, Evans GJ, Jervis RE. Aerosol laser ablation mass spectrometry of suspended powders from PM sources and its implications to receptor modeling. Journal of the Air & Waste Management Association 2002;52(1):27-40.
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219. Baer T, Miller RE, Woods E. Internal temperature of laser evaporated liquid aerosol droplets measurements with VUV photoionization using a "chemical thermometer". Abstracts of Papers of the American Chemical Society 2003;225:U477-U8.
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223. Gross DS, Schmitt AM, Silverberg AM, et al. Single particle analysis of diesel particulate matter: A comparison of real-time and integrated measurements. Abstracts of Papers of the American Chemical Society 2003;225:U375-U6.
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235. Murphy DM, Middlebrook AM, Warshawsky M. Cluster analysis of data from the Particle Analysis by Laser Mass Spectrometry (PALMS) instrument. Aerosol Science and Technology 2003;37(4):382-91.
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242. Vogt R, Kirchner U, Scheer V, Hinz KP, Trimborn A, Spengler B. Identification of diesel exhaust particles at an Autobahn, urban and rural location using single-particle mass spectrometry. Journal of Aerosol Science 2003;34(3):319-37.
243. Wenzel RJ, Liu DY, Edgerton ES, Prather KA. Aerosol time-of-flight mass spectrometry during the Atlanta Supersite Experiment: 2. Scaling procedures. Journal of Geophysical Research-Atmospheres 2003;108(D7).
244. Whiteaker JR, Prather KA. Hydroxymethanesulfonate as a tracer for fog processing of individual aerosol particles. Atmospheric Environment 2003;37(8):1033-43.
245. Whiteaker JR, Prather KA. Detection of pesticide residues on individual particles. Analytical Chemistry 2003;75(1):49-56.
246. Wise ME, Brooks SD, Garland RM, Cziczo DJ, Martin ST, Tolbert MA. Solubility and freezing effects of Fe2+ and Mg2+ in H2SO4 solutions representative of upper tropospheric and lower stratospheric sulfate particles. Journal of Geophysical Research-Atmospheres 2003;108(D19).
247. Woods E, Miller RE, Baer T. The internal energy of neutral ethylene glycol molecules created in the laser vaporization of aerosol particles. Journal of Physical Chemistry A 2003;107(13):2119-25.
248. Zimmermann R, Ferge T, Galli M, Karlsson R. Application of single-particle laser desorption/ionization time-of-flight mass spectrometry for detection of polycyclic aromatic hydrocarbons from soot particles originating from an industrial combustion process. Rapid Communications in Mass Spectrometry 2003;17(8):851-9.
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260. Iida K, Wu CY, Hahn DW. In situ analysis of the interaction of manganese vapor and silica microspheres in a laboratory-scale combustor. Combustion Science and Technology 2004;176(3):453-80.
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278. Wenzel RJ, Prather KA. Improvements in ion signal reproducibility obtained using a homogeneous laser beam for on-line laser desorption/ionization of single particles. Rapid Communications in Mass Spectrometry 2004;18(13):1525-33.
279. Yadav R, Saoud K, Rasouli F, Hajaligol M, Fenner R. Study of cigarette smoke aerosol using time of flight mass spectrometry. Journal of Analytical and Applied Pyrolysis 2004;72(1):17-25.
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281. Beddows DCS, Telle HH. Prospects of real-time single-particle biological aerosol analysis: A comparison between laser-induced breakdown spectroscopy and aerosol time-of-flight mass spectrometry. Spectrochimica Acta Part B-Atomic Spectroscopy 2005;60(7-8):1040-59.
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296. Holecek JC, Spencer MT, Furutani H, Ramanathan V, Prather KA. Single particle chemical analysis of aerosols generated from rain water collected at trinidad head, CA during the cloud indirect effects experiment (CIFEX). Abstracts of Papers of the American Chemical Society 2005;229:U127-U.
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308. Sodeman DA, Toner SM, Prather KA. Determination of single particle mass spectral signatures from light-duty vehicle emissions. Environmental Science & Technology 2005;39(12):4569-80.
309. Spencer MT, Prather KA, Shields LG. Chemical analysis of used and new petroleum-based lubricants using ATOFMS. Abstracts of Papers of the American Chemical Society 2005;229:U127-U.
310. Srivastava A, Pitesky ME, Steele PT, et al. Comprehensive assignment of mass spectral signatures from individual Bacillus atrophaeus spores in matrix-free laser desorption/ionization bioaerosol mass spectrometry. Analytical Chemistry 2005;77(10):3315-23.
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312. Su YX, Sipin MF, Prather KA, Gelein RM, Lunts A, Oberdorster G. ATOFMS characterization of individual model aerosol particles used for exposure studies. Aerosol Science and Technology 2005;39(5):400-7.
313. Sullivan RC, Guazzotti S, Prather KA. Kinetics of the simultaneous uptake of nitric acid on mineral dust and sea salt aerosols measured by ATOFMS. Abstracts of Papers of the American Chemical Society 2005;229:U127-U.
314. Sullivan RC, Prather KA. Recent advances in our understanding of atmospheric chemistry and climate made possible by on-line aerosol analysis instrumentation. Analytical Chemistry 2005;77(12):3861-85.
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317. Toner SM, Shields LG, Sodeman DA, Prather KA. Using mass spectral source signatures to apportion exhaust particles from gasoline and diesel powered vehicles in a freeway study. Abstracts of Papers of the American Chemical Society 2005;229:U127-U.
318. van Wuijckhuijse AL, Stowers MA,
319. Vera CC, Trimborn A, Hinz KP, Spengler B. Initial velocity distributions of ions generated by in-flight laser desorption/ionization of individual polystyrene latex microparticles as studied by the delayed ion extraction method. Rapid Communications in Mass Spectrometry 2005;19(2):133-46.
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325. Mysak ER, Dessiaterik YN, McKinney CJ, Miller RE, Baer T. Design of a timing circuit for random laser triggering on aerosol particles. Review of Scientific Instruments 2006;77(1).
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