Aromatic Formation Promoted by Ion-Driven Radical Pathways in EUV Photochemical Experiments Simulating Titan’s Atmospheric Chemistry

In the atmosphere of Titan, Saturn’s main satellite, molecular growth is initiated by 85.6 nm extreme ultraviolet (EUV) photons triggering a chemistry with charged and free-radical species. However, the respective contribution of these species to the complexification of matter is far from being know...

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Veröffentlicht in:	The journal of physical chemistry. A, Molecules, spectroscopy, kinetics, environment, & general theory Molecules, spectroscopy, kinetics, environment, & general theory, 2021-04, Vol.125 (15), p.3159-3168
Hauptverfasser:	Bourgalais, Jérémy, Carrasco, Nathalie, Vettier, Ludovic, Comby, Antoine, Descamps, Dominique, Petit, Stéphane, Blanchet, Valérie, Gaudin, Jérôme, Mairesse, Yann, Marty, Bernard
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Schlagworte:	A: Aerosols Environmental and Atmospheric Chemistry Astrochemistry Sciences of the Universe
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container_title	The journal of physical chemistry. A, Molecules, spectroscopy, kinetics, environment, & general theory
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creator	Bourgalais, Jérémy Carrasco, Nathalie Vettier, Ludovic Comby, Antoine Descamps, Dominique Petit, Stéphane Blanchet, Valérie Gaudin, Jérôme Mairesse, Yann Marty, Bernard
description	In the atmosphere of Titan, Saturn’s main satellite, molecular growth is initiated by 85.6 nm extreme ultraviolet (EUV) photons triggering a chemistry with charged and free-radical species. However, the respective contribution of these species to the complexification of matter is far from being known. This work presents a chemical analysis in order to contribute to a better understanding of aromatic formation pathways. A gas mixture of N2/CH4 (90/10%) within the closed SURFACAT reactor was irradiated at a relatively low pressure (0.1 mbar) and room temperature for 6 h by EUV photons (∼85.6 nm). The neutral molecules formed at the end of the irradiation were condensed in a cryogenic trap and analyzed by electron ionization mass spectrometry. An analysis of the dominant chemical pathways highlights the identification of benzene and toluene and underlies the importance of small ion and radical reactions. On the basis of the experimental results, a speculative mechanism based on sequential H-elimination/CH3-addition reactions is proposed for the growth of aromatics in Titan’s atmosphere. Elementary reactions to be studied are given to instill future updates of photochemical models of Titan’s atmosphere.
doi_str_mv	10.1021/acs.jpca.1c00324
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title	Aromatic Formation Promoted by Ion-Driven Radical Pathways in EUV Photochemical Experiments Simulating Titan’s Atmospheric Chemistry
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