Classification of multiple types of organic carbon composition in atmospheric particles by scanning transmission X-ray microscopy analysis
A scanning transmission X-ray microscope at the Lawrence Berkeley National Laboratory is used to measure organic functional group abundance and morphology of atmospheric aerosols. We present a summary of spectra, sizes, and shapes observed in 595 particles that were collected and analyzed between 2000 and 2006. These particles ranged between 0. 1 and 12 gm, and represent aerosols found in a large range of geographical areas, altitudes, and times. They include samples from seven different field campaigns: PELTI, ACE-ASIA, DYCOMS II, Princeton, MILAGRO (urban), MILAGRO (C-130), and INTEX-B. At least 14 different classes of organic particles show different types of spectroscopic signatures. Different particle types are found within the same region while the same particle types are also found in different geographical domains. Particles chemically resembling black carbon, humic-like aerosols, pine ultisol, and secondary or processed aerosol have been identified from functional group abundance and comparison of spectra with those published in the literature. (C) 2007 Elsevier Ltd. All rights reserved.
Keywords: aerosol ; microscopy ; carbonaceous aerosol ; organic ; functional group ; Nexafs ; Xanes ; Stxm ; C(1S) Nexafs Spectroscopy ; Aerosol-Particles ; Dicarboxylic-Acids ; Particulate Matter ; Black Carbon ; Diesel Soot ; Humic-Like ; Tropospheric Aerosols ; Electron-Microscopy ; Optical-Properties
Record created on 2012-03-15, modified on 2016-08-09