Global potential-energy surfaces for H2Cl

David W. Schwenke; Susan C. Tucker; Rozeanne Steckler; Franklin B. Brown; Gillian C. Lynch; Donald G. Truhlar; Bruce C. Garrett

doi:10.1063/1.455914

Global potential-energy surfaces for H₂Cl

David W. Schwenke, Susan C. Tucker, Rozeanne Steckler, Franklin B. Brown, Gillian C. Lynch, Donald G. Truhlar, Bruce C. Garrett

Chemistry (Twin Cities)

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83 Scopus citations

Abstract

We present two new analytic potential-energy surfaces suitable for studying the competition between the abstraction reaction H + DCl→HD + Cl and the exchange reaction H + DCl→HCl + D. In the abstraction channel the surfaces are only slightly different from the Stern-Persky-Klein GSW surface, but the exchange barrier on both surfaces is raised by inclusion of a three-center term fitted to ab initio extended-basis-set multireference configuration interaction calculations with scaled external correlation. The two surfaces differ significantly only for the steepness of H-Cl-H bend potential. The exchange and abstraction saddle points are characterized by harmonic analysis for H ₂Cl, HDCl, and D₂Cl, and we also compute vibrationally adiabatic barrier heights including anharmonicity. We also report thermal rate constants and activation energies for both reactions mentioned above.

Original language	English (US)
Pages (from-to)	3110-3120
Number of pages	11
Journal	The Journal of chemical physics
Volume	90
Issue number	6
DOIs	https://doi.org/10.1063/1.455914
State	Published - 1989

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abstract = "We present two new analytic potential-energy surfaces suitable for studying the competition between the abstraction reaction H + DCl→HD + Cl and the exchange reaction H + DCl→HCl + D. In the abstraction channel the surfaces are only slightly different from the Stern-Persky-Klein GSW surface, but the exchange barrier on both surfaces is raised by inclusion of a three-center term fitted to ab initio extended-basis-set multireference configuration interaction calculations with scaled external correlation. The two surfaces differ significantly only for the steepness of H-Cl-H bend potential. The exchange and abstraction saddle points are characterized by harmonic analysis for H 2Cl, HDCl, and D2Cl, and we also compute vibrationally adiabatic barrier heights including anharmonicity. We also report thermal rate constants and activation energies for both reactions mentioned above.",

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AU - Schwenke, David W.

AU - Tucker, Susan C.

AU - Steckler, Rozeanne

AU - Brown, Franklin B.

AU - Lynch, Gillian C.

AU - Truhlar, Donald G.

AU - Garrett, Bruce C.

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AB - We present two new analytic potential-energy surfaces suitable for studying the competition between the abstraction reaction H + DCl→HD + Cl and the exchange reaction H + DCl→HCl + D. In the abstraction channel the surfaces are only slightly different from the Stern-Persky-Klein GSW surface, but the exchange barrier on both surfaces is raised by inclusion of a three-center term fitted to ab initio extended-basis-set multireference configuration interaction calculations with scaled external correlation. The two surfaces differ significantly only for the steepness of H-Cl-H bend potential. The exchange and abstraction saddle points are characterized by harmonic analysis for H 2Cl, HDCl, and D2Cl, and we also compute vibrationally adiabatic barrier heights including anharmonicity. We also report thermal rate constants and activation energies for both reactions mentioned above.

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Global potential-energy surfaces for H₂Cl

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