Brown carbon (BrC) is a special class of light-absorbing organic matter in atmospheric aerosol that has potential direct and indirect climate effects. The formation of BrC is hypothesized to be related to the oxidation and/or oligomerization of organic compounds in biomass burning plumes or photochemical smog leading to relatively high-molecular weight (MW), low-volatility polycarboxylic compounds. This project seeks to better understand the chemical nature of BrC and address hypotheses regarding BrC sources. First, an unique analytical method that allows simultaneous thermal/optical characterization as well as mass spectrometric analysis (soft and hard ionization) of the evolved gases will be developed and applied to a comprehensive collection of standard and real-world aerosol samples. The method will integrate a carbon analyzer developed at the Desert Research Institute (DRI) in Reno,Nevada, enhanced for multi-elemental and spectral detection with photo-ionization time-of-flight mass spectrometers (TOF-MS) developed at the University of Rostock (UR). BrC and black carbon (BC) can then be quantified from spectral light absorption measurements and studied with molecular patterns/source signatures in gases evolved at different heating temperatures. The relationship of BrC to various organic groups will be investigated. A dynamic temperature ramping will be explored to better isolate BrC and other organic components for a more specific characterization. Finally, a library consisting of two-dimensional MS-thermograms for major aerosol types, including urban and rural environmental particulate matter and laboratory-generated combustion and secondary organic aerosol, will be established. This library will facilitate source attribution when coupled with advanced chemometric analysis.

DFG Programme Research Grants

International Connection Finland, USA

Participating Persons Dr. Antony Chen; Judith Chow; Professor Dr. Jorma Jokiniemi, Ph.D.; Dr. Olli Sippula