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Interface engineering of NiS@MoS2 core-shell microspheres as an efficient catalyst for hydrogen evolution reaction in both acidic and alkaline medium
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- Chen, Zhiwen (author)
- Shanghai Univ, Peoples R China
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- Liu, Xiao (author)
- Shanghai Univ, Peoples R China
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- Xin, Peijun (author)
- Shanghai Univ, Peoples R China
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- (creator_code:org_t)
- ELSEVIER SCIENCE SA, 2021
- 2021
- English.
- In: Journal of Alloys and Compounds. - : ELSEVIER SCIENCE SA. - 0925-8388 .- 1873-4669. ; 853
- Journal article (peer-reviewed)
Abstract
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- Electrochemical splitting of water is one of the most reliable and effective ways for the sustainable production of pure hydrogen on a large scale, while the core of this technology lies in the development of highly active non-noble-metal-based electrocatalysts to lower the large dynamic overpotentials of electrode materials. Here, an interface engineering strategy is demonstrated to construct an efficient and stable catalyst based on NiS@MoS2 core-shell hierarchical microspheres for the hydrogen evolution reactions (HER). The ultrathin MoS2 nanosheets in-situ grow on the surface of NiS hierarchical micro-sized spheres constructed by porous nanoplates, endowing the composites with rich interfaces, well-exposed electroactive edges, high structural porosity and fast transport channels. These advantages are favorable for the improvement of catalytic sites and the transport of catalysis-relevant species. More importantly, the intimate contact between MoS2 nanosheets and NiS nanoplates synergistically favors the chemical sorption of hydrogen intermediates, thereby reducing the reaction barrier and accelerating the HER catalytic process. As a result, the optimized NiS@MoS2 catalyst manifests impressive HER activity and durability, with a low overpotential of 208 mV in 0.5 M H2SO4 and 146 mV in 1.0 M KOH at 10 mA cm(-2), respectively. This work not only provides an effective way to construct core-shell hierarchical microspheres but also a multiscale strategy to regulate the electronic structure of heterostructured materials for energy-related applications. (C) 2020 Elsevier B.V. All rights reserved.
Subject headings
- NATURVETENSKAP -- Kemi -- Oorganisk kemi (hsv//swe)
- NATURAL SCIENCES -- Chemical Sciences -- Inorganic Chemistry (hsv//eng)
Keyword
- Interface engineering; Chalcogenides; MoS2; Hydrogen evolution reactions; Core-shell structure
Publication and Content Type
- ref (subject category)
- art (subject category)
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- Chen, Zhiwen
- Liu, Xiao
- Xin, Peijun
- Wang, Haitao
- Wu, Ye
- Gao, Chunyan
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- He, Qingquan
- Jiang, Yong
- Hu, Zhang-Jun
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- Linköping University
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