Synthesis of Cu<sub>2‐x</sub>Se‐MoSe<sub>2</sub> Edge‐Epitaxial Heterostructure for Efficient Electrocatalytic Hydrogen Evolution
Yanbo Ma, Lei Yang, Ye Li, Hai Li, Yanping Huang, Junze Chen
Abstract
Abstract The exposure of active edge sites of transition metal dichalcogenide (TMD) in TMD‐based heterostructures is essential to enhance the catalytic activity toward electrochemical catalytic hydrogen evolution (HER). The construction of TMD‐based edge‐epitaxial heterostructures can maximally expose the active edge sites. However, owing to the 2D crystal structures, it remains a great challenge to vertically align layered TMDs on non‐layered metal chalcogenides. Herein, the synthesis of Cu 2‐x Se‐MoSe 2 edge‐epitaxial heterostructure is reported by a facile one‐pot wet‐chemical method. A high density of MoSe 2 nanosheets grown vertically to the <111> Cu2‐xSe on the surface of Cu 2‐x Se nanocrystals is observed. Such edge‐epitaxial configuration allows the exposure of abundant active edge sites of MoSe 2 and enhances the changer transfer between MoSe 2 and Cu 2‐x Se. As a result, the obtained Cu 2‐x Se‐MoSe 2 epitaxial heterostructures show excellent HER performance as compared to that of Cu 2‐x Se@1T/2H‐MoSe 2 core@shell heterostructure with similar size. This work not only offers a novel approach for designing efficient electrochemical catalysis but also enriches the diversity of TMD‐based heterostructures, holding promise for various applications in the future.