The recent measurements by Cassini Ion Neutral Mass Spectrometer (INMS) showed the presence of numerous carbocations and shed light on their composition in Titan's upper atmosphere. The present research identifies an important class of ion-molecule reactions proceeding via carbocation collision complexes, and its implications in the chemistry of Titan's thermosphere and ionosphere. Ananalysis (based on the kinetics and dynamics of the elementary chemical processes identified) of the Cassini measurements reveals the mechanism of formation of the three-membered Huckel aromatic rings-Cyclopropenylcation and its cyclic methylderivatives. For carbocations, a non classical three-carbon-center two-electron bond structure is no longer a controversial topic in chemistry literature. Emphasis has been placed on a future coordinated effortof state-of-the-art laboratory experiments, quantum-chemical calculations, and astronomical ALMA and JWST observations including planetary in situ measurements at millimeter and submillimeter wavelengths to elucidate the structure, energetics and dynamics of the compositions of carbocations detected by Cassini cationic mass spectrometry. The carbocation chemistry in Titan's upper atmosphere has a possible bearing on the organic chemistry and aromaticity in the atmosphere of primitive earth.

A. Ali, E.C. Sittler, D. Chornay, B.R. Rowe, C. Puzzarini (2013). Cyclopropenyl cation – the simplest Huckel's aromatic molecule – and its cyclic methyl derivatives in Titan's upper atmosphere. PLANETARY AND SPACE SCIENCE, 87, 96-105 [10.1016/j.pss.2013.07.007].

Cyclopropenyl cation – the simplest Huckel's aromatic molecule – and its cyclic methyl derivatives in Titan's upper atmosphere

PUZZARINI, CRISTINA
2013

Abstract

The recent measurements by Cassini Ion Neutral Mass Spectrometer (INMS) showed the presence of numerous carbocations and shed light on their composition in Titan's upper atmosphere. The present research identifies an important class of ion-molecule reactions proceeding via carbocation collision complexes, and its implications in the chemistry of Titan's thermosphere and ionosphere. Ananalysis (based on the kinetics and dynamics of the elementary chemical processes identified) of the Cassini measurements reveals the mechanism of formation of the three-membered Huckel aromatic rings-Cyclopropenylcation and its cyclic methylderivatives. For carbocations, a non classical three-carbon-center two-electron bond structure is no longer a controversial topic in chemistry literature. Emphasis has been placed on a future coordinated effortof state-of-the-art laboratory experiments, quantum-chemical calculations, and astronomical ALMA and JWST observations including planetary in situ measurements at millimeter and submillimeter wavelengths to elucidate the structure, energetics and dynamics of the compositions of carbocations detected by Cassini cationic mass spectrometry. The carbocation chemistry in Titan's upper atmosphere has a possible bearing on the organic chemistry and aromaticity in the atmosphere of primitive earth.
2013
A. Ali, E.C. Sittler, D. Chornay, B.R. Rowe, C. Puzzarini (2013). Cyclopropenyl cation – the simplest Huckel's aromatic molecule – and its cyclic methyl derivatives in Titan's upper atmosphere. PLANETARY AND SPACE SCIENCE, 87, 96-105 [10.1016/j.pss.2013.07.007].
A. Ali; E.C. Sittler; D. Chornay; B.R. Rowe; C. Puzzarini
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/373692
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