Worm-like S-doped RhNi alloys as highly efficient electrocatalysts for hydrogen evolution reaction

[Display omitted] •Worm-like S-doped RhNi alloys (S-RhNi) was prepared for first time.•The S-RhNi has a remarkable Pt-like catalytic activitytowards HER.•Worm-like RhNi alloy and doped S atoms improve HER activity.•3D metal network structures are used to reduce the unfavorable stacking effects. Prec...

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Bibliographic Details
Published in:Applied catalysis. B, Environmental Environmental, 2019-10, Vol.255, p.117737, Article 117737
Main Authors: Lu, Jiajia, Tang, Zheng, Luo, Lin, Yin, Shibin, Kang Shen, Pei, Tsiakaras, Panagiotis
Format: Article
Language:English
Subjects:
Alloys
Aqueous solutions
Coordination numbers
Current density
Electrocatalysts
Electrolysis
Evolution
Hydrogen
Hydrogen evolution reaction
Hydrogen evolution reactions
Metals
Nanotechnology
Nanowires
Performance enhancement
RhNi alloy
Scaling
sulfur doping
Sulfuric acid
Ultrafines
Worm-like
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Summary:[Display omitted] •Worm-like S-doped RhNi alloys (S-RhNi) was prepared for first time.•The S-RhNi has a remarkable Pt-like catalytic activitytowards HER.•Worm-like RhNi alloy and doped S atoms improve HER activity.•3D metal network structures are used to reduce the unfavorable stacking effects. Precious metals are considered as the most efficient electrocatalysts for boosting the dynamic process of cathode in water electrolysis devices. Due to the large surface areas and the low coordination numbers of surface atoms, their one-dimensional ultrafine nanowires and two-dimensional ultrathin nanosheets are continually being investigated, while stacking problems inevitably affect their activities and stabilities. We describe herein a three-dimensional metal network electrocatalyst consisting of a worm-like S-doped RhNi alloy (S-RhNi), which improves the performance for hydrogen evolution reaction (HER). Experimental results reveal that S-RhNi exhibits Pt-like HER activity with an onset potential close to 0 mV and a Tafel slope of 24.61 mV dec−1 in 0.5 M H2SO4 aqueous solution, having also good stability. The polarization curve shifts only 3.9 mV at a current density of −60 mA cm−2 after 1,000 cycles and the potential displays a slight change after holding the current density at −20 mA cm−2 for 10 h. This improved performance is supposed to be originated from the combination between the worm-like RhNi alloy, doped S atoms, and the three-dimensional structure. Overall, the results obtained and the facile synthesis methods offer a promising electrocatalyst for scaling-up hydrogen evolution.
ISSN:0926-3373
1873-3883
DOI:10.1016/j.apcatb.2019.05.039