Gene C. Hancock scite author profile

We analyze potential energy surfaces that have been proposed by one of the authors, Bunker, and Chapman and by Raff for the reaction CH3+H2↔CH4+H. The surfaces are modified to remove discontinuities and zero frequencies, where present, and the modified surfaces are compared to each other in terms of reaction-path properties and to ab initio calculations for stationary point properties. They are also used for rate constant calculations which are compared to experiment. The rate constants were calculated by improved canonical variational transition state theory with small-curvature semiclassical adiabatic ground-state transmission coefficients (ICVT/SCSAG) over a wide temperature range, 298–1340 K. Both surfaces yield rate constants in poor agreement with experimental values. The reaction-path analysis leads to a list of potential energy surface features that are important for the rate constants but inaccurate in the existing surfaces and that should be improved in subsequent work.

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Calculation of reaction rates and kinetic isotope effects for dissociative chemisorption of H2 and D2 on Ni(100), Ni(110), and Ni(111) surfaces

Truong

Hancock

Truhlar

1989

Surface Science

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POLYRATE 6.5: A new version of a computer program for the calculation of chemical reaction rates for polyatomics

Steckler¹,

Hu²,

Liu³

et al. 1995

Computer Physics Communications

102

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Gene C. Hancock

POLYRATE 4: A new version of a computer program for the calculation of chemical reaction rates for polyatomics

MORATE: a program for direct dynamics calculations of chemical reaction rates by semiempirical molecular orbital theory

A comparative study of potential energy surfaces for CH3+H2↔CH4+H

Calculation of reaction rates and kinetic isotope effects for dissociative chemisorption of H2 and D2 on Ni(100), Ni(110), and Ni(111) surfaces

POLYRATE 6.5: A new version of a computer program for the calculation of chemical reaction rates for polyatomics

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