近期,我院教师肖蓓蓓(通讯),研究生黄秋艳、刘昕、张泽等的研究成果“Dopant-vacancy activated tetragonal transition metal selenide for hydrogen evolution electrocatalysis”在《Chinese Chemical Letters》(IF=9.1)上发表。

作者: 发布时间:2023-09-11动态浏览次数:397

近期,我院教师肖蓓蓓(通讯)研究生黄秋艳、刘昕、张泽等的研究成果“Dopant-vacancy activated tetragonal transition metal selenide for

hydrogen evolution electrocatalysis”在《Chinese Chemical LettersIF=9.1上发表。

论文简介如下:

Hydrogen production from water electrolysis using renewable electricity is a highly promising route to solve the energy crisis of human society. The tetragonal 3d-transition metal selenide with metallic feature has been discovered to efficiently catalyze the hydrogen evolution electrocatalysis; however, its performance is still unsatisfactory and further improvement is necessary. Herein, the hydrogen evolution

reaction of the functional tetragonal 3d-transition metal selenide with the heteroatom-dopant as well as cationic vacancy is fully investigated by means of density functional theory calculations. Our results identify 53 promising candidates endowed with good activity due to the absolute free energy of hydrogen adsorption |ΔGH|  0.30 eV wherein 15 candidates with |ΔGH| ≤ 0.09 eV possess compelling performance in comparison with the benchmark Pt material. Interestingly, the functional CuSe systems account for 29 out of 53 candidates, being high attractive for experimental synthesis. According to the analysis of electronic structure, the enhanced performance stems from the upshift of the sp orbitals, which benefits for the improved affinity toward hydrogen capture. This work provides new direction and guidance for the design of novel electrocatalysts.



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