Elusive sulfurous acid: Gas-phase basicity and IR signature of the protonated species

Rajeev K. Sinha; Debora Scuderi; Philippe Maitre; Barbara Chiavarino; Maria Elisa Crestoni; Simonetta Fornarini

doi:10.1021/acs.jpclett.5b00450

Elusive sulfurous acid: Gas-phase basicity and IR signature of the protonated species

Rajeev K. Sinha
, Debora Scuderi
, Philippe Maitre
, Barbara Chiavarino
, Maria Elisa Crestoni^*
, Simonetta Fornarini

^*Corresponding author for this work

Manipal Institute of Applied Physics (MIAP)

Research output: Contribution to journal › Article › peer-review

19 Citations (Scopus)

Abstract

The ion corresponding to protonated sulfurous acid, H₃SO₃⁺, has been successfully delivered into the gas phase by electrospray ionization of the solution of a suitable precursor and an in-source fragmentation process. The neutral acid is a highly elusive molecule. However, its gas-phase basicity has been ascertained by means of a kinetic study of proton-transfer reactivity. The structure of the H₃SO₃⁺ sampled ion has been probed by IRMPD spectroscopy in two complementary IR frequency ranges in conjunction with density functional theory calculations and found to conform to a trihydroxosulfonium ion. The characteristic IR signatures may aid in deciphering the presence of this species in extraterrestrial atmospheres.

Original language	English
Pages (from-to)	1605-1610
Number of pages	6
Journal	Journal of Physical Chemistry Letters
Volume	6
Issue number	9
DOIs	https://doi.org/10.1021/acs.jpclett.5b00450
Publication status	Published - 07-05-2015

All Science Journal Classification (ASJC) codes

General Materials Science

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title = "Elusive sulfurous acid: Gas-phase basicity and IR signature of the protonated species",

abstract = "The ion corresponding to protonated sulfurous acid, H3SO3+, has been successfully delivered into the gas phase by electrospray ionization of the solution of a suitable precursor and an in-source fragmentation process. The neutral acid is a highly elusive molecule. However, its gas-phase basicity has been ascertained by means of a kinetic study of proton-transfer reactivity. The structure of the H3SO3+ sampled ion has been probed by IRMPD spectroscopy in two complementary IR frequency ranges in conjunction with density functional theory calculations and found to conform to a trihydroxosulfonium ion. The characteristic IR signatures may aid in deciphering the presence of this species in extraterrestrial atmospheres.",

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T1 - Elusive sulfurous acid

T2 - Gas-phase basicity and IR signature of the protonated species

AU - Sinha, Rajeev K.

AU - Scuderi, Debora

AU - Maitre, Philippe

AU - Chiavarino, Barbara

AU - Crestoni, Maria Elisa

AU - Fornarini, Simonetta

PY - 2015/5/7

Y1 - 2015/5/7

N2 - The ion corresponding to protonated sulfurous acid, H3SO3+, has been successfully delivered into the gas phase by electrospray ionization of the solution of a suitable precursor and an in-source fragmentation process. The neutral acid is a highly elusive molecule. However, its gas-phase basicity has been ascertained by means of a kinetic study of proton-transfer reactivity. The structure of the H3SO3+ sampled ion has been probed by IRMPD spectroscopy in two complementary IR frequency ranges in conjunction with density functional theory calculations and found to conform to a trihydroxosulfonium ion. The characteristic IR signatures may aid in deciphering the presence of this species in extraterrestrial atmospheres.

AB - The ion corresponding to protonated sulfurous acid, H3SO3+, has been successfully delivered into the gas phase by electrospray ionization of the solution of a suitable precursor and an in-source fragmentation process. The neutral acid is a highly elusive molecule. However, its gas-phase basicity has been ascertained by means of a kinetic study of proton-transfer reactivity. The structure of the H3SO3+ sampled ion has been probed by IRMPD spectroscopy in two complementary IR frequency ranges in conjunction with density functional theory calculations and found to conform to a trihydroxosulfonium ion. The characteristic IR signatures may aid in deciphering the presence of this species in extraterrestrial atmospheres.

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Elusive sulfurous acid: Gas-phase basicity and IR signature of the protonated species

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