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Much progress has been achieved for both experimental and theoretical studies on the dissociative chemisorption of molecules on surfaces.Quantum state-resolved experimental data has provided unprecedented details for these fundamental steps in heterogeneous catalysis,while the quantitative dynamics is still not fully understood in theory.An in-depth understanding of experimental observations relies on accurate dynamical calculations,in which the potential energy surface and adequate quantum mechanical implementation are desired.This article summarizes the current methodologies on the construction of potential energy surfaces and the quantum mechanical treatments,some of which are promising for future applications.The challenges in this field are also addressed.
Much progress has been achieved for both experimental and theoretical studies on the dissociative chemisorption of molecules on surfaces. Quantum state-resolved experimental data has provided the details for these fundamental steps in heterogeneous catalysis, while the quantitative dynamics is still not fully fully in theory. An in-depth understanding of experimental observations relies on accurate dynamical calculations, in which the potential energy surface and adequate quantum mechanical implementation are desired. This article summarizes the current methodologies on the construction of potential energy surfaces and the quantum mechanical treatments, some of which are promising for future applications.The challenges in this field are also addressed.