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Guaiacol Nitration in a Simulated Atmospheric Aerosol with an Emphasis on Atmospheric Nitrophenol Formation Mechanisms

Ana Kroflič, Janine Anders, Ivana Drventić, Peter Mettke, Olaf Böge, Anke Mutzel, Jörg Kleffmann, Hartmut Herrmann

2021ACS Earth and Space Chemistry40 citationsDOIOpen Access PDF

Abstract

Atmospheric nitrophenols are pollutants of concern due to their toxicity and light-absorption characteristics and their low reactivity resulting in relatively long residence times in the environment. We investigate multiphase nitrophenol formation from guaiacol in a simulated atmospheric aerosol and support observations with the corresponding chemical mechanisms. The maximal secondary organic aerosol (SOA) yield (42%) is obtained under illumination at 80% relative humidity. Among the identified nitrophenols, 4-nitrocatechol (3.6% yield) is the prevailing species in the particulate phase. The results point to the role of water in catechol and further 4-nitrocatechol formation from guaiacol. In addition, a new pathway of dark nitrophenol formation is suggested, which prevailed in dry air and roughly yielded 1% nitroguaiacols. Furthermore, the proposed mechanism possibly leads to oligomer formation via a phenoxy radical formation by oxidation with HONO.

Topics & Concepts

GuaiacolAerosolChemistryEnvironmental chemistryIsopreneNitrationYield (engineering)NitrophenolCatecholPhotochemistryOrganic chemistryMaterials scienceMetallurgyCopolymerPolymerCatalysisAtmospheric chemistry and aerosolsAtmospheric Ozone and ClimateAtmospheric aerosols and clouds
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