Infrared matrix isolation study of H 2 SO 4 and its complexes with H 2 O

Aharon Givan; Lars A. Larsen; Aharon Loewenschuss; Claus J. Nielsen

doi:10.1039/A706675I

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DOI: 10.1039/A706675I (Paper) J. Chem. Soc., Faraday Trans., 1998, 94, 827-835

Infrared matrix isolation study of H₂SO₄ and its complexes with H₂O

(Note: The full text of this document is currently only available in the PDF Version )

Aharon Givan, Lars A. Larsen, Aharon Loewenschuss and Claus J. Nielsen

Abstract

Infrared spectra of H₂SO₄ vapors, which also include H₂O and SO₃, were trapped in argon matrices. Vibrational assignments for monomeric H₂SO₄ were established and additional bands were assigned to the (H₂SO₄)₂, (H₂O)·(H₂SO₄) and (H₂O)₂·(H₂SO₄) species. For the (H₂O)·(H₂SO₄) complex, several isomers are shown to exist, the most stable being H₂O·HOSO₂OH. Temperature reversible changes in several bands of the latter complex are discussed in analogy to the trimeric (H₂O)₃ complex. The H₂O and H₂SO₄ molecules dispersed in the argon solid do not affect the stabilization of a mixed (H₂O)_m·(SO₃)_n complex. No spectral evidence for ionized species due to proton transfer was found in the matrix samples investigated.

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Infrared matrix isolation study of H2SO4 and its complexes with H2O

(Note: The full text of this document is currently only available in the PDF Version )

Abstract

Infrared matrix isolation study of H₂SO₄ and its complexes with H₂O