H
Huijun Ma
Researcher at Northwest University (China)
Publications - 5
Citations - 115
Huijun Ma is an academic researcher from Northwest University (China). The author has contributed to research in topics: Catalysis & Overpotential. The author has an hindex of 2, co-authored 5 publications receiving 29 citations.
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Journal ArticleDOI
Modulating interfacial charge distribution of single atoms confined in molybdenum phosphosulfide heterostructures for high efficiency hydrogen evolution
Jiachen Li,Jiachen Li,Chi Zhang,Huijun Ma,Taihe Wang,Zhaoqi Guo,Yong Yang,Yaoyu Wang,Haixia Ma +8 more
TL;DR: In this paper, a facile galvanostatic deposition strategy is used to anchor cost-effective ruthenium (Ru) single atoms (SAs) into MoS2/MoP heterosturctures on carbon cloth (CC@MoS2,MoP/Ru SAs).
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Multiple-interface relay catalysis: Enhancing alkaline hydrogen evolution through a combination of Volmer promoter and electrical-behavior regulation
Jiachen Li,Jiachen Li,Chi Zhang,Ting Zhang,Zihan Shen,Qingwen Zhou,Jun Pu,Huijun Ma,Taihe Wang,Huigang Zhang,Haiming Fan,Yaoyu Wang,Haixia Ma +12 more
TL;DR: In this paper, carbon fiber-supported porous nickel phosphide nanosheets have been used to decorate ruthenium nanoclusters (CF@P-Ni2P/Ru) to generate a hybrid catalyst.
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Electronic configuration of single ruthenium atom immobilized in urchin-like tungsten trioxide towards hydrazine oxidation-assisted hydrogen evolution under wide pH media
Jiachen Li,Jiachen Li,Cong Zhang,Chi Zhang,Huijun Ma,Yong Yang,Zhaoqi Guo,Yao-Yu Wang,Haixia Ma +8 more
TL;DR: In this paper, a galvanostatic immobilization of ruthenium single atoms (Ru SAs) into the oxygen vacancy of urchin-like tungsten trioxide (Vo-WO3) was reported.
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Structure–Relaxivity Mechanism of an Ultrasmall Ferrite Nanoparticle T1 MR Contrast Agent: The Impact of Dopants Controlled Crystalline Core and Surface Disordered Shell
Yuqing Miao,Huan Zhang,Jing Cai,Yimin Chen,Huijun Ma,Shuo Zhang,Jiabao Yi,Xiaoli Liu,Boon-Huat Bay,Guo Yingkun,Xin Zhou,Ning Gu,Haiming Fan +12 more
TL;DR: In this paper, the authors developed chemically engineered 3.8 nm ZnxFe3-xO4@ZnxMnyFe3x-yO4 nanoparticles with precise dopants control in both crystalline core and disordered shell to assess the impact of dopants on the relaxometric properties of UFNPs.