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Anharmonic Vibrational Spectrum and Experimental Matrix Isolation Study of Thioformic Acid Conformers—Potential Candidates for Molecular Cloud and Solar System Observations?

Antti Lignell, Irina Osadchuk, Markku Räsänen, Jan Lundell

2021The Astrophysical Journal14 citationsDOIOpen Access PDF

Abstract

Abstract Thioformic acid (TFA) is the sulfur analog of formic acid, the simplest organic acid. It has three analogs, HCOSH, HCSOH, and HCSSH, each of them having two rotational isomeric (rotameric) forms: trans and cis where the trans form is energetically more stable. In this article, we study computational energetics and anharmonic vibrational spectrum of TFA, including overtone and combination vibrations. We also studied experimental photoisomerization and photodecomposition channels of HCOSH molecules with different wavelengths. We suggest that TFA is a potential sulfur-containing candidate molecule for interstellar and planetary observations and discuss these in light of different radiation environments in space. More generally, we discuss that infrared radiation-driven photoisomerization reactions may be a common phenomenon in such environments and can affect the chemical reaction pathways of organic and other interstellar molecules.

Topics & Concepts

PhotoisomerizationPhysicsAnharmonicityOvertoneMoleculeMatrix isolationInfraredAstrochemistryFormic acidPhotochemistryPhotodissociationInfrared spectroscopyChemical physicsMolecular physicsAtomic physicsMolecular vibrationSpectroscopyAb initioInterstellar mediumSpectral lineTriatomic moleculeMolecular cloudSolar SystemVibrational energy relaxationColored dissolved organic matterExcited stateVibrational spectrumInterstellar cloudAstrophysics and Star Formation StudiesAdvanced Chemical Physics StudiesChemical Reactions and Mechanisms
Anharmonic Vibrational Spectrum and Experimental Matrix Isolation Study of Thioformic Acid Conformers—Potential Candidates for Molecular Cloud and Solar System Observations? | Litcius