摘要
The layered materials have demonstrated great prospects as cost-effective substitutes for precious electrocatalysts in hydrogen evolution reaction.Research efforts have been devoted to synthesizing highly conductive MoS_(2) with the substantial cardinal plane and edge active sites.Here,we successfully synthesized a hierarchical 1T/2H–MoS_(2) with sodium ion insertion via a facile hydrothermal method.The contents of the 1T-phase can be flexibly controlled by different hydrothermal temperatures(160 ~ 200°C).And the modified uniformly dispersed 1T/2H–MoS_(2) nanospheres with different d spacings were designed to enhance the electrocatalytic efficiency by adding SiO_(2) and through the ion exchange process of Na OH and HF solution.The as-synthesized Na+intercalated 1T-MoS_(2) nanosphere with an expanded interlayer of 0.95 nm obtained at 160°C exhibits a prominent electrocatalytic performance of hydrogen evolution reaction with a comparable overpotential of 255 m V and a remarkably small Tafel slope of 44 m V/decade.Therefore,this study provides a facile and controllable strategy to yield interlayerexpanded 1T-MoS_(2) nanospheres,making it a potentially competitive hydrogen evolution catalyst for the hydrogen cell.
基金
supported by National Natural Science Foundation of China(Grant no.51702291)
The National Science Foundation for Post-doctoral Scientists of China(Grant no.2016M602261)
Foundation of Henan Educational Committee(Grant no.18A150016)
State Key Laboratory of Powder Metallurgy,Central South University,Changsha,China
Development Fund for Outstanding Young Teachers of Zhengzhou University。
