The puzzling hyper-fine structure and an accurate equilibrium geometry of succinic anhydride

An accurate semiexperimental equilibrium structure of succinic anhydride has been determined from a combination of experiment and theory. The cm-wave and mm-wave rotational spectra of succinic anhydride, 3,4-dihydrofuran-2,5-dione, were recorded in a pulsed supersonic jet using Fourier-transform mic...

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Veröffentlicht in:	Physical chemistry chemical physics : PCCP 2020-03, Vol.22 (9), p.5170-5177
Hauptverfasser:	Jahn, Michaela K, Obenchain, Daniel A, Nair, K P Rajappan, Grabow, Jens-Uwe, Vogt, Natalja, Demaison, Jean, Godfrey, Peter D, McNaughton, Don
Format:	Artikel
Sprache:	eng
Schlagworte:	Anhydrides Chemical equilibrium Equilibrium Fine structure Fourier transforms Millimeter waves Rotational spectra Rotational states Spectrum analysis
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creator	Jahn, Michaela K Obenchain, Daniel A Nair, K P Rajappan Grabow, Jens-Uwe Vogt, Natalja Demaison, Jean Godfrey, Peter D McNaughton, Don
description	An accurate semiexperimental equilibrium structure of succinic anhydride has been determined from a combination of experiment and theory. The cm-wave and mm-wave rotational spectra of succinic anhydride, 3,4-dihydrofuran-2,5-dione, were recorded in a pulsed supersonic jet using Fourier-transform microwave spectroscopy and in a free-jet using mm-wave absorption spectroscopy. Many lines in the cm-wave spectrum show fine structure and after eliminating all other possibilities the origin of this fine structure is determined to be from spin-spin interaction. Accurate rotational and quartic centrifugal distortion constants are determined. Assignments of 13C and 18O singly substituted isotopologues in natural abundance were used to obtain a substitution geometry for the heavy atoms of succinic anhydride. Theoretical approaches permitted the calculation of a Born-Oppenheimer ab initio structure and the determination of a semiexperimental equilibrium structure in which computed rovibrational corrections were utilized to convert vibrational ground state rotational constants into equilibrium constants. The agreement between the semiexperimental structure and the Born-Oppenheimer ab initio structure is excellent. Succinic anhydride has been shown to have a planar heavy atom equilibrium structure with the effects of a large amplitude vibration apparent in the resultant rotational constants.
doi_str_mv	10.1039/c9cp06775b
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The cm-wave and mm-wave rotational spectra of succinic anhydride, 3,4-dihydrofuran-2,5-dione, were recorded in a pulsed supersonic jet using Fourier-transform microwave spectroscopy and in a free-jet using mm-wave absorption spectroscopy. Many lines in the cm-wave spectrum show fine structure and after eliminating all other possibilities the origin of this fine structure is determined to be from spin-spin interaction. Accurate rotational and quartic centrifugal distortion constants are determined. Assignments of 13C and 18O singly substituted isotopologues in natural abundance were used to obtain a substitution geometry for the heavy atoms of succinic anhydride. Theoretical approaches permitted the calculation of a Born-Oppenheimer ab initio structure and the determination of a semiexperimental equilibrium structure in which computed rovibrational corrections were utilized to convert vibrational ground state rotational constants into equilibrium constants. The agreement between the semiexperimental structure and the Born-Oppenheimer ab initio structure is excellent. 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subjects	Anhydrides Chemical equilibrium Equilibrium Fine structure Fourier transforms Millimeter waves Rotational spectra Rotational states Spectrum analysis
title	The puzzling hyper-fine structure and an accurate equilibrium geometry of succinic anhydride
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