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Mingquan Xu

Researcher at Chinese Academy of Sciences

Publications -  23
Citations -  1910

Mingquan Xu is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Electrocatalyst & Catalysis. The author has an hindex of 15, co-authored 23 publications receiving 792 citations. Previous affiliations of Mingquan Xu include Central South University.

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Structural defects on converted bismuth oxide nanotubes enable highly active electrocatalysis of carbon dioxide reduction.

Qiufang Gong, +13 more
- 26 Jun 2019 - 
TL;DR: Nanotube-derived bismuth is reported for electrocatalytic reduction of carbon dioxide to formate, with performance that is enhanced by defects, and coupled with silicon photocathodes and achieves high-performance photoelectrochemical carbon dioxide reduction.
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A stable low-temperature H2-production catalyst by crowding Pt on α-MoC.

Xiao Zhang, +31 more
- 20 Jan 2021 - 
TL;DR: In this article, a low-temperature water-gas shift (WGS) catalyst is achieved by crowding platinum atoms and clusters on α-molybdenum carbide; the crowding protects the support from oxidation that would cause catalyst deactivation.
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Weakening hydrogen adsorption on nickel via interstitial nitrogen doping promotes bifunctional hydrogen electrocatalysis in alkaline solution

Tingting Wang, +11 more
- 04 Dec 2019 - 
TL;DR: In this article, the authors demonstrate that interstitial nitrogen doping in Ni3N nanoparticles can greatly promote its electrocatalytic activity and lower the activation barrier for water formation and dissociation.
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Dynamic Behavior of Single-Atom Catalysts in Electrocatalysis: Identification of Cu-N3 as an Active Site for the Oxygen Reduction Reaction.

Ji Yang, +16 more
- 15 Sep 2021 - 
TL;DR: In this article, a two-step approach was developed to fabricate single-atom catalysts with a uniform and well-defined Cu2+-N4 structure that exhibits comparable activity and superior durability in comparison to Pt/C.
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A Li-rich Layered@Spinel@Carbon heterostructured cathode material for high capacity and high rate lithium-ion batteries fabricated via an in situ synchronous carbonization-reduction method

Qingbing Xia, +7 more
- 03 Feb 2015 - 
TL;DR: Li-rich layered (Rm) oxide, spinel phase (Fdm) interlayer and a carbon nano-coating was used in this article to achieve high discharge capacity and superior rate capability.