Radiation-Induced Transformation of CHF<sub>3</sub>···CO to the CF<sub>3</sub>···CO Complex: Matrix Isolation and Ab Initio Study

Sosulin, Ilya S.; Tyurin, Daniil A.; Feldman, Vladimir I.

doi:10.1021/acs.jpca.9b09240

Cited by 6 publications

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“…• • • • CO produced by dissociation of a precursor closed-shell complex between fluoroform (CHF 3 ) and carbon monoxide [144]. Even though the direct astrochemical relevance of this radical-molecule complex is doubtful, this interesting example shows that the precursor geometry (confirmed by the quantum-chemical calculations) is retained in the radical-molecule complex despite the intermolecular interaction being very weak.…”

Section: The Radical-molecule Complexes Of Carbon Monoxidementioning

confidence: 80%

Astrochemically Relevant Radicals and Radical–Molecule Complexes: A New Insight from Matrix Isolation

Feldman

2023

IJMS

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The reactive open-shell species play a very important role in the radiation-induced molecular evolution occurring in the cold areas of space and presumably leading to the formation of biologically relevant molecules. This review presents an insight into the mechanism of such processes coming from matrix isolation studies with a main focus on the experimental and theoretical studies performed in the author’s laboratory during the past decade. The radicals and radical cations produced from astrochemically relevant molecules were characterized by Fourier transform infrared (FTIR) and electron paramagnetic resonance (EPR) spectroscopy. Small organic radicals containing C, O, and N atoms are considered in view of their possible role in the formation of complex organic molecules (COMs) in space, and a comparison with earlier results is given. In addition, the radical–molecule complexes generated from isolated intermolecular complexes in matrices are discussed in connection with their model significance as the building blocks for COMs formed under the conditions of extremely restricted molecular mobility at cryogenic temperatures.

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Section: The Radical-molecule Complexes Of Carbon Monoxidementioning

confidence: 80%

Astrochemically Relevant Radicals and Radical–Molecule Complexes: A New Insight from Matrix Isolation

Feldman

2023

IJMS

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“…Three possible structures for the molecule–radical complex consisting of BNH and CO have been computed (Figure ). Similar to other weakly bonded CO complexes (e.g., OH and CHF 3 ), − the hydrogen atom in BNH can interact with the carbon or oxygen atoms of CO in structures BNH···CO and BNH···OC (Figure a), respectively. Alternatively, CO can also coordinate with the boron atom of BNH for the stable structure HNB···CO.…”

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Spectroscopic Identification of the Heterocumulenic Isocyanatoborane Radical HBNCO

Wang

Jiang

et al. 2022

J. Phys. Chem. Lett.

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The highly elusive isocyanatoborane radical HBNCO has been generated by the reaction of laser-ablated boron atoms with HNCO and also by the light-induced chemical transformation of the hydrogen-bonded molecule−radical complex BNH•••CO in solid neon matrix. IR spectroscopic and theoretical studies indicate that the HBNCO radical possesses a quasilinear BNCO heterocumulenic structure with the unpaired electron mainly located at the boron atom. This is in sharp contrast to the bonding properties of the isoelectronic analogues HCCCO and NCCO, in which the unpaired electron is located at the terminal CO moiety.

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Radiation-induced transformations of difluoromethane in noble gas matrices

Sosulin

Feldman

2021

Radiation Physics and Chemistry

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Radiation-Induced Transformation of CHF₃···CO to the CF₃···CO Complex: Matrix Isolation and Ab Initio Study

Cited by 6 publications

References 37 publications

Astrochemically Relevant Radicals and Radical–Molecule Complexes: A New Insight from Matrix Isolation

Astrochemically Relevant Radicals and Radical–Molecule Complexes: A New Insight from Matrix Isolation

Spectroscopic Identification of the Heterocumulenic Isocyanatoborane Radical HBNCO

Radiation-induced transformations of difluoromethane in noble gas matrices

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Radiation-Induced Transformation of CHF3···CO to the CF3···CO Complex: Matrix Isolation and Ab Initio Study

Cited by 6 publications

References 37 publications

Astrochemically Relevant Radicals and Radical–Molecule Complexes: A New Insight from Matrix Isolation

Astrochemically Relevant Radicals and Radical–Molecule Complexes: A New Insight from Matrix Isolation

Spectroscopic Identification of the Heterocumulenic Isocyanatoborane Radical HBNCO

Radiation-induced transformations of difluoromethane in noble gas matrices

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Radiation-Induced Transformation of CHF₃···CO to the CF₃···CO Complex: Matrix Isolation and Ab Initio Study