Abstract
Methane dissociation on Ni(100) surface is one of the benchmark systems for exploring polyatomic molecular gas–surface reaction dynamics. We here present an eight-dimensional quantum dynamics study based on developing a highly accurate, 15-dimensional potential energy surface(PES). The CH4 interacting on a rigid Ni(100) surface is described with the methodology of neural network (NN) fit to plenty of ab initio configuration-energy points. With the best-fitting NN(PES), we obtain the sticking probability S0 of ground state (GS) CH4 and its isotopologue CD4 on a rigid Ni(100) from some direct quantum dynamics simulations. The promising azimuth-averaged and site-averaged approaches are employed to treat the influence of surface impact sites. The improved nonlinear lattice-sudden model is considered for the surface temperature effect. The final S0 of GS CH4 on Ni(100) surface at 475 K is in excellent agreement with two sets of available experiments. Furthermore, we calculate the S0 of GS CD4 on Ni(100) surfac...
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