We review several methods for computing kinetic isotope effects in chemical reactions including semiclassical and quantum instanton theory. These methods describe both the quantization of vibrational modes as well as tunneling and are applied to the H + H2 and H + CH4 reactions. The absolute rate constants computed with the semiclassical instanton method both using on-the-fly electronic structure calculations and fitted potential-energy surfaces are also compared directly with exact quantum dynamics results. The error inherent in the instanton approximation is found to be relatively small and similar in magnitude to that introduced by using fitted surfaces. The kinetic isotope effect computed by the quantum instanton is even more ac...
Kinetic Isotope effects (KIEs) have long served as a probe for the mechanisms of both enzymatic and ...
Nuclear tunneling and other nuclear quantum effects have been shown to play a significant role in mo...
Rate constants and kinetic isotope effects are calculated for the CH3+H2 ? CH4+H reaction by two the...
We review several methods for computing kinetic isotope effects in chemical reactions including sem...
We review several methods for computing kinetic isotope effects in chemical reactions including semi...
A general quantum-mechanical method for computing kinetic isotope effects is presented. The method i...
Primary H/D kinetic isotope effects for the [1,5] hydrogen shift reaction in 13-atomic 1,3-pentadien...
The semiclassical instanton approach discussed by Kryvohuz [J. Chem. Phys. 134, 114103 (2011)10.1063...
The semiclassical instanton approach discussed by Kryvohuz [J. Chem. Phys. 134, 114103 (2011)10.1063...
The semiclassical instanton approach discussed by Kryvohuz [J. Chem. Phys. 134, 114103 (2011)10.1063...
A general method for computing kinetic isotope effects is described. The method uses the quantum-ins...
The instanton approach, as previously applied to proton tunneling in molecular systems, is adapted t...
Path integral implementation of the quantum instanton approximation currently belongs among the most...
The quantum instanton approximation is used to compute kinetic isotope effects for intramolecular hy...
The quantum instanton approximation is used to compute kinetic isotope effects for intramolecular hy...
Kinetic Isotope effects (KIEs) have long served as a probe for the mechanisms of both enzymatic and ...
Nuclear tunneling and other nuclear quantum effects have been shown to play a significant role in mo...
Rate constants and kinetic isotope effects are calculated for the CH3+H2 ? CH4+H reaction by two the...
We review several methods for computing kinetic isotope effects in chemical reactions including sem...
We review several methods for computing kinetic isotope effects in chemical reactions including semi...
A general quantum-mechanical method for computing kinetic isotope effects is presented. The method i...
Primary H/D kinetic isotope effects for the [1,5] hydrogen shift reaction in 13-atomic 1,3-pentadien...
The semiclassical instanton approach discussed by Kryvohuz [J. Chem. Phys. 134, 114103 (2011)10.1063...
The semiclassical instanton approach discussed by Kryvohuz [J. Chem. Phys. 134, 114103 (2011)10.1063...
The semiclassical instanton approach discussed by Kryvohuz [J. Chem. Phys. 134, 114103 (2011)10.1063...
A general method for computing kinetic isotope effects is described. The method uses the quantum-ins...
The instanton approach, as previously applied to proton tunneling in molecular systems, is adapted t...
Path integral implementation of the quantum instanton approximation currently belongs among the most...
The quantum instanton approximation is used to compute kinetic isotope effects for intramolecular hy...
The quantum instanton approximation is used to compute kinetic isotope effects for intramolecular hy...
Kinetic Isotope effects (KIEs) have long served as a probe for the mechanisms of both enzymatic and ...
Nuclear tunneling and other nuclear quantum effects have been shown to play a significant role in mo...
Rate constants and kinetic isotope effects are calculated for the CH3+H2 ? CH4+H reaction by two the...