New insights into the chemical composition and formation mechanisms of secondary organic aerosols produced in the ozonolysis of limonene - École nationale supérieure Mines-Télécom Lille Douai
Article Dans Une Revue Journal of Aerosol Science Année : 2023

New insights into the chemical composition and formation mechanisms of secondary organic aerosols produced in the ozonolysis of limonene

Nicolas Houzel
Cecile Coeur
L.Y. Alleman
Guillaume Dhont
A. Cuisset
Alexandre Tomas

Résumé

Limonene is a wide-spread volatile organic compound in the atmosphere. Its fast reaction with ozone leads to a large range of low-volatility oxygenated products that can form aerosols through gas-to-particle conversion processes. However, the physical and chemical mechanisms at the origin of particle formation are still fairly unknown despite the general importance of atmospheric aerosols towards health and climate. In the present work, we combined experimental and theoretical approaches to potentially decipher new significant mechanisms in the ozonolysis of limonene. After a thorough analysis of secondary organic aerosol (SOA) chemical composition highlighting for the first time the formation of oligomers up to heptamer structures as well as linear organic diacids, we proposed a formation mechanism involving non-covalent hydrogen bonding implying carboxylic/carbonyl/hydroxy groups. Theoretical quantum chemical calculations on dimers and trimers confirmed the stability of such structures. Thus, the present results highlight the formation of large oligomeric molecules whose atmospheric fate and health impacts need to be investigated. More generally, it is suggested that these non-covalent H-bonds play a role in the first steps of SOA formation from terpene oxidation in the atmosphere.

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Dates et versions

hal-04743184 , version 1 (18-10-2024)

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F. Jacob, Nicolas Houzel, Paul Genevray, Cyprien Clety, Cecile Coeur, et al.. New insights into the chemical composition and formation mechanisms of secondary organic aerosols produced in the ozonolysis of limonene. Journal of Aerosol Science, 2023, 173, pp.106214. ⟨10.1016/j.jaerosci.2023.106214⟩. ⟨hal-04743184⟩
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