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Brown Carbon from Photo-Oxidation of Glyoxal and SO 2 in Aqueous Aerosol.

David O De HaanLelia N HawkinsPraveen D WickremasingheAlyssa D AndrettaJuliette R DignumAudrey C De HaanHannah G WelshElyse A PenningtonTianqu CuiJason D SurrattMathieu CazaunauEdouard PanguiJean-François Doussin
Published in: ACS earth & space chemistry (2023)
Aqueous-phase dark reactions during the co-oxidation of glyoxal and S(IV) were recently identified as a potential source of brown carbon (BrC). Here, we explore the effects of sunlight and oxidants on aqueous solutions of glyoxal and S(IV), and on aqueous aerosol exposed to glyoxal and SO 2 . We find that BrC is able to form in sunlit, bulk-phase, sulfite-containing solutions, albeit more slowly than in the dark. In more atmospherically relevant chamber experiments where suspended aqueous aerosol particles are exposed to gas-phase glyoxal and SO 2 , the formation of detectable amounts of BrC requires an OH radical source and occurs most rapidly after a cloud event. From these observations we infer that this photobrowning is caused by radical-initiated reactions as evaporation concentrates aqueous-phase reactants and aerosol viscosity increases. Positive-mode electrospray ionization mass spectrometric analysis of aerosol-phase products reveals a large number of C x H y O z oligomers that are reduced rather than oxidized (relative to glyoxal), with the degree of reduction increasing in the presence of OH radicals. This again suggests a radical-initiated redox mechanism where photolytically produced aqueous radical species trigger S(IV)-O 2 auto-oxidation chain reactions, and glyoxal-S(IV) redox reactions especially if aerosol-phase O 2 is depleted. This process may contribute to daytime BrC production and aqueous-phase sulfur oxidation in the atmosphere. The BrC produced, however, is about an order of magnitude less light-absorbing than wood smoke BrC at 365 nm.
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