Abstract
Two-dimensional VS2 nanomaterials have emerged as highly efficient and inexpensive electrocatalysts for the hydrogen evolution reaction (HER), and the further improvement of their HER performance depends on the understanding of the catalytic mechanism and activity in various pristine and defective structures. Here, structural stability, electronic properties, and HER activity of monolayer VS2 nanosheets with various intrinsic point defects are studied by using first-principles calculations. Compared to the most-studied 2H-phase MoS2 basal plane, both 2H- and 1T-phase VS2 basal planes exhibit superior catalytic activity due to their metallic properties. With the introduction of intrinsic point defects onto VS2 basal planes, we find that there are four types of stable defects in the 2H phase (i.e., Sad, Svac, Vad, and VS) and three types of stable defects in the 1T phase (i.e., Sad, Svac, and Vad). Moreover, the formation of Svac, Vad, and VS structures in the 2H phase and Vad in the 1T phase can enhance th...
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