Heterojunction engineering of Ni3S2/NiS nanowire for electrochemical hydrogen evolution

被引:13
|
作者
Chen, Meng [1 ]
Su, Qing [3 ]
Kitiphatpiboon, Nutthaphak [1 ]
Zhang, Juan [1 ]
Feng, Changrui [1 ]
Li, Shasha [4 ]
Zhao, Qiang [5 ]
Abudula, Abuliti [1 ]
Ma, Yufei [2 ,3 ]
Guan, Guoqing [1 ,2 ]
机构
[1] Hirosaki Univ, Sch Sci & Technol, 1 Bunkyocho, Hirosaki 0368560, Japan
[2] Hirosaki Univ, Inst Reg Innovat IRI, Energy Convers Engn Lab, 3 Bunkyocho, Hirosaki 0368561, Japan
[3] Max Planck Inst Chem Phys Solids, Nothnitzer Str 40, D-01187 Dresden, Germany
[4] Taiyuan Univ Sci & Technol, Coll Chem & Biol Engn, Taiyuan 030024, Peoples R China
[5] Shanxi Datong Univ, Sch Chem & Environm Engn, Datong 037009, Peoples R China
来源
FUEL | 2023年 / 331卷
关键词
Water electrolysis; Hydrogen evolution reaction; Nickel sulfide based electrocatalysts; Epitaxial growth; Ni3S2/NiS heterojunction; DOPED CARBON; EFFICIENT ELECTROCATALYST; HETEROSTRUCTURES; INTERFACE; ALKALINE; FOAM;
D O I
10.1016/j.fuel.2022.125794
中图分类号
TE [石油、天然气工业]; TK [能源与动力工程];
学科分类号
0807 ; 0820 ;
摘要
Hydrogen evolution reaction (HER) over the non-noble metal-based electrocatalysts is a promising approach to realize future clean energy economy. Herein, to achieve effective interface construction, epitaxial growth of NiS on the surface of one-dimensional (1D) Ni3S2 nanowire on nickel foam (NF) was performed, to construct a Ni3S(2)/NiS electrocatalyst with a heterojunction structure via a solid-state phase transformation. Benefiting from the strong charge transfer at the Ni3S2/NiS heterojunction interface, the d-band center was downshifted compared to the single component (Ni3S2 or NiS), which effectively optimized the valence state and the H adsorption of Ni, thus improved the HER activity. The obtained Ni3S2@NiS-250/NF showed the robust HER catalytic performance with a low overpotential of 129 mV to deliver the current density of 10 mA cm(-2) with a small Tafel slope (75.5 mV dec(-1)) in 1 M KOH media. Moreover, it exhibited superior durability for at least 50 h. This work provides a novel strategy for designing nickel sulfide-based catalysts for HER with high performance.
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页数:8
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