%0 Journal Article %1 Canagaratna:2007p1495 %A Canagaratna, M %A Jayne, J %A Jiimenez, J. L %A Allan, J %A Alfarra, M %A Zhang, Q %A Onasch, T %A Drewnick, F %A Coe, H %A Middlebrook, A %A Delia, A %A Williams, L %A Trimborn, A %A Northway, M %A DeCarlo, P %A Kolb, C %A Davidovits, P %A Worsnop, D %D 2007 %J Mass Spectrometry Reviews %K imported %N 2 %P 185--222 %T Chemical and microphysical characterization of ambient aerosols with the aerodyne aerosol mass spectrometer %U http://links.isiglobalnet2.com/gateway/Gateway.cgi?GWVersion=2&SrcAuth=mekentosj&SrcApp=Papers&DestLinkType=FullRecord&DestApp=WOS&KeyUT=000244352000005%20 %V 26 %X The application of mass spectrometric techniques to the realtime measurement and characterization of aerosols represents a significant advance in the field of atmospheric science. This review focuses on the aerosol mass spectrometer (AMS), an instrument designed and developed at Aerodyne Research, Inc. (ARI) that is the most widely used thermal vaporization AMS. The AMS uses aerodynamic lens inlet technology together with thermal vaporization and electron-impact mass spectrometry to measure the real-time non-refractory (NR) chemical speciation and mass loading as a function of particle size of fine aerosol particles with aerodynamic diameters between similar to 50 and 1,000 nm. The original AMS utilizes a quadrupole mass spectrometer (Q) with electron impact (EI) ionization and produces ensemble average data of particle properties. Later versions employ time-of-flight (ToF) mass spectrometers and can produce full mass spectral data for single particles. This manuscript presents a detailed discussion of the strengths and limitations of the AMS measurement approach and reviews how the measurements are used to characterize particle properties. Results from selected laboratory experiments and field measurement campaigns are also presented to highlight the different applications of this instrument. Recent instrumental developments, such as the incorporation of softer ionization techniques (vacuum ultraviolet (VUV) photo-ionization, Li+ ion, and electron attachment) and high-resolution ToF mass spectrometers, that yield more detailed information about the organic aerosol component are also described. (c) 2007 Wiley Periodicals, Inc.

@article{Canagaratna:2007p1495, abstract = {The application of mass spectrometric techniques to the realtime measurement and characterization of aerosols represents a significant advance in the field of atmospheric science. This review focuses on the aerosol mass spectrometer (AMS), an instrument designed and developed at Aerodyne Research, Inc. (ARI) that is the most widely used thermal vaporization AMS. The AMS uses aerodynamic lens inlet technology together with thermal vaporization and electron-impact mass spectrometry to measure the real-time non-refractory (NR) chemical speciation and mass loading as a function of particle size of fine aerosol particles with aerodynamic diameters between similar to 50 and 1,000 nm. The original AMS utilizes a quadrupole mass spectrometer (Q) with electron impact (EI) ionization and produces ensemble average data of particle properties. Later versions employ time-of-flight (ToF) mass spectrometers and can produce full mass spectral data for single particles. This manuscript presents a detailed discussion of the strengths and limitations of the AMS measurement approach and reviews how the measurements are used to characterize particle properties. Results from selected laboratory experiments and field measurement campaigns are also presented to highlight the different applications of this instrument. Recent instrumental developments, such as the incorporation of softer ionization techniques (vacuum ultraviolet (VUV) photo-ionization, Li+ ion, and electron attachment) and high-resolution ToF mass spectrometers, that yield more detailed information about the organic aerosol component are also described. (c) 2007 Wiley Periodicals, Inc.}, added-at = {2010-06-22T19:38:37.000+0200}, author = {Canagaratna, M and Jayne, J and Jiimenez, J. L and Allan, J and Alfarra, M and Zhang, Q and Onasch, T and Drewnick, F and Coe, H and Middlebrook, A and Delia, A and Williams, L and Trimborn, A and Northway, M and DeCarlo, P and Kolb, C and Davidovits, P and Worsnop, D}, biburl = {https://www.bibsonomy.org/bibtex/252316952a4a484fd35522ac7bd32f12e/gsmith}, date-added = {2010-03-10 16:47:13 -0500}, date-modified = {2010-03-11 15:55:12 -0500}, interhash = {0f0f73ed3e9d3310d46beb020adbd7db}, intrahash = {52316952a4a484fd35522ac7bd32f12e}, journal = {Mass Spectrometry Reviews}, keywords = {imported}, label = {rec-number 1345}, local-url = {file://localhost/Users/geoffreysmith/Documents/Papers/Mass%20Spectrometry%20Reviews/2007/Mass%20Spectrometry%20Reviews,%2026,%20185-222%202007.pdf}, month = Mar, number = 2, pages = {185--222}, pmid = {000244352000005}, rating = {0}, timestamp = {2010-06-22T19:38:55.000+0200}, title = {Chemical and microphysical characterization of ambient aerosols with the aerodyne aerosol mass spectrometer}, uri = {papers://E88B624E-D406-46FF-9D95-BB9C1AAE3FDC/Paper/p1495}, url = {http://links.isiglobalnet2.com/gateway/Gateway.cgi?GWVersion=2&SrcAuth=mekentosj&SrcApp=Papers&DestLinkType=FullRecord&DestApp=WOS&KeyUT=000244352000005%20}, volume = 26, year = 2007 }