The hydrosilylation of terminal alkyne is the most straightforward and atom‐economy method to generate α‐vinylsilane. In the present paper, the acetylene and phenylacetylene hydrosilylation reactions were firstly studied by imposing external electric field (EEF) as a catalyst at the level of ωB97XD/TZVP. The results demonstrated that the oriented negative FY direction is the optimal direction, which mostly reduced the reaction barriers. Further computations indicated that the larger the EEF, the lower the barrier. When the EEF was increased to 180 (10−4) au, the barrier height of acetylene hydrosilylation (path Q) reduced almost 20 kcal/mol. To be surprised, as the phenyl substitute used, the hydrosilylation reaction (path FQ) was largely accelerated with the barrier height lowered to 13.2 kcal/mol, which decreased about 37 kcal/mol. Hopefully, this theoretical study would provide a guide for the experiment of the hydrosilylation of alkyne as much as possible.
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