Yuping Wang and Dunyou Wang, “Quantum dynamics study of kinetic isotope effects of OD with HBr and DBr”,Physical Chemistry Chemical Physics, 2019(Vol.21, 14722);
Yuping Wang and Dunyou Wang, “Quantum dynamics calculations reveal temperature independence of kinetic isotope effect of the OH+HBr/DBr reaction”,The Journal of Chemical Physics, 2018(Vol.149, 034302);
Yuping Wang, Yida Li and Dunyou Wang, “Quantum dynamics study of energy requirement on reactivity for the HBr+OH reaction with a negative-energy barrier”, Scientific Reports, 2017(Vol.7, 40314);
Yuping Wang, Fanbin Meng, Pengxiu Yan and Dunyou Wang, “Quantum dynamics study of energy efficiency on reactivity for the double-barrier potential energy surface of the N+N2 reaction”, Chemical Physics Letters, 2015(Vol.633, 202-207);
Yuping Wang, Pengxiu Yan, Yida Li and Dunyou Wang, “Time-Dependent Quantum Dynamics Study of the F+CD4→DF+CD3 reaction”, Journal of Atomic and Molecular Science. 2015(Vol.6, 225-235);
Yida Li, Yuping Wang and Dunyou Wang, “Quantum dynamics study of the potential energy minima effect on energy efficiency for the F-+CH3Cl→FCH3+Cl- reaction”, The Journal of Physical Chemistry A, 2017(Vol.121, 2773-2779);
Pengxiu Yan, Yuping Wang, Yida Li and Dunyou Wang, “A seven-degree-of-freedom, time-dependent quantum dynamics study on the energy efficiency in surmounting the central energy barrier of the OH+CH3→O+CH4 reaction”, The Journal of Chemical Physics, 2015(Vol.142, 164303);
Pengxiu Yan, Fanbin Meng, Yuping Wang and Dunyou Wang, “Energy efficiency in surmounting central energy barrier: a quantum dynamics study of the OH+CH3→O+CH4 reaction”, Phys. Chem. Chem. Phys., 2015(Vol.17, 5187-5193).
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