Comparison of aqueous secondary organic aerosol (aqSOA) product distributions from guaiacol oxidation by non-phenolic and phenolic methoxybenzaldehydes as photosensitizers in the absence and presence of ammonium nitrate

Beatrix Rosette Go Mabato, Yong Jie Li, Dan Dan Huang, Yalin Wang, Chak K. Chan

Research output: Contribution to journalArticlepeer-review

8 Scopus citations

Abstract

Aromatic carbonyls (e.g., methoxybenzaldehydes), an important class of photosensitizers, are abundant in the atmosphere. Photosensitization and nitrate-mediated photo-oxidation can occur simultaneously, yet studies about their interactions, particularly for aqueous secondary organic aerosol (aqSOA) formation, remain limited. This study compared non-phenolic (3,4-dimethoxybenzaldehyde, DMB) and phenolic (vanillin, VL) methoxybenzaldehydes as photosensitizers for aqSOA formation via guaiacol (GUA) oxidation in the absence and presence of ammonium nitrate (AN) under atmospherically relevant cloud and fog conditions. GUA oxidation by triplet excited states of DMB (3DMBg-) (GUAg+gDMB) was g1/4g4 times faster and exhibited greater light absorption than oxidation by 3VLg- (GUAg+gVL). Both GUAg+gDMB and GUAg+gVL formed aqSOA composed of oligomers, functionalized monomers, oxygenated ring-opening species, and N-containing products in the presence of AN. The observation of N-heterocycles such as imidazoles indicates the participation of ammonium in the reactions. The majority of generated aqSOA comprises potential brown carbon (BrC) chromophores. Oligomerization and functionalization dominated in GUAg+gDMB and GUAg+gVL, but functionalization appeared to be more important in GUAg+gVL due to contributions from VL itself. AN did not significantly affect the oxidation kinetics, but it had distinct effects on the product distributions, likely due to differences in the photosensitizing abilities and structural features of DMB and VL. In particular, the more extensive fragmentation in GUAg+gDMB than in GUAg+gVL likely generated more N-containing products in GUAg+gDMBg+gAN. In GUAg+gVLg+gAN, the increased oligomers may be due to VL-derived phenoxy radicals induced by ĝ «OH or ĝ «NO2 from nitrate photolysis. Furthermore, increased nitrated products observed in the presence of both DMB or VL and AN than in AN alone imply that photosensitized reactions may promote nitration. This work demonstrates how the structural features of photosensitizers affect aqSOA formation via non-carbonyl phenol oxidation. Potential interactions between photosensitization and AN photolysis were also elucidated. These findings facilitate a better understanding of photosensitized aqSOA formation and highlight the importance of AN photolysis in these reactions.
Original languageEnglish (US)
Pages (from-to)2859-2875
Number of pages17
JournalAtmospheric Chemistry and Physics
Volume23
Issue number4
DOIs
StatePublished - Mar 2 2023
Externally publishedYes

Bibliographical note

Generated from Scopus record by KAUST IRTS on 2023-07-06

ASJC Scopus subject areas

  • Atmospheric Science

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