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Literature DB >> 27578319

High-Sulfur-Vacancy Amorphous Molybdenum Sulfide as a High Current Electrocatalyst in Hydrogen Evolution.

Ang-Yu Lu¹, Xiulin Yang¹, Chien-Chih Tseng¹, Shixiong Min¹, Shi-Hsin Lin^2,3, Chang-Lung Hsu⁴, Henan Li¹, Hicham Idriss⁵, Jer-Lai Kuo², Kuo-Wei Huang¹, Lain-Jong Li⁶.

Abstract

The remote hydrogen plasma is able to create abundant S-vacancies on amorphous molybdenum sulfide (a-MoSx ) as active sites for hydrogen evolution. The results demonstrate that the plasma-treated a-MoSx exhibits superior performance and higher stability than Pt in a proton exchange membrane based electrolyzers measurement as a proof-of-concept of industrial application.

Entities: Chemical

Keywords: amorphous molybdenum sulfide; hydrogen evolution reaction; hydrogen plasma; photon exchange; transition metal dichalcogenide

Year: 2016 PMID： 27578319 DOI： 10.1002/smll.201602107

Source DB: PubMed Journal: Small ISSN： 1613-6810 Impact factor: 13.281

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Cited

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4. Boundary activated hydrogen evolution reaction on monolayer MoS₂.

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5. An amorphous MoS _x modified g-C₃N₄ composite for efficient photocatalytic hydrogen evolution under visible light.

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6. Cationic Vacancy Defects in Iron Phosphide: A Promising Route toward Efficient and Stable Hydrogen Evolution by Electrochemical Water Splitting.

Authors: Wai Ling Kwong; Eduardo Gracia-Espino; Cheng Choo Lee; Robin Sandström; Thomas Wågberg; Johannes Messinger
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Review 7. A Review on the Promising Plasma-Assisted Preparation of Electrocatalysts.

Authors: Feng Yu; Mincong Liu; Cunhua Ma; Lanbo Di; Bin Dai; Lili Zhang
Journal: Nanomaterials (Basel) Date: 2019-10-10 Impact factor: 5.076