Your search keyword '"Yuping Tong"' showing total 2 results

1. Hetero-structured Ru-Mo2C nanoparticles loaded on N,P co-doped carbon for a pH universal hydrogen evolution reaction.

Author

Yanqiang Li, Zhuo Zhang, Yingying Yao, Zi'an Wang, Zhongzheng Yang, Yuping Tong, and Siru Chen

Subjects

HYDROGEN evolution reactions, CATALYTIC activity, PHOSPHOMOLYBDIC acid, DOPING agents (Chemistry), METAL-organic frameworks

Abstract

Considering the extensive research studies on Ru and Mo2C for the hydrogen evolution reaction (HER), the construction of heterostructure catalysts containing both Ru and Mo2C nanoparticles can further improve the catalytic activity by the synergistic effect of different species. In this work, we report the synthesis of N,P co-doped carbon coated Ru and Mo2C nanoparticles for the HER using a ZnMo metal-organic framework (MOF) as the precursor. The addition of phosphomolybdic acid during the synthesis of a Zn-MOF not only provides a Mo source for the formation of Mo2C, but also induces a nano-bowl structure. After anchoring RuCl3 in the ZnMo-MOF and thermal annealing, Ru and Mo2C nanoparticles encapsulated in N,P doped carbon (Ru-Mo2C@NPC) were synthesized and the nano-bowl morphology was well preserved. Due to the co-existence of the highly active catalytic species Ru and Mo2C, a large specific surface area owing to the evaporation of Zn during the calcination process, and the nano-bowl-like morphology that boosts mass transfer, Ru-Mo2C@NPC exhibits good catalytic activity for the HER over a wide pH range, with overpotentials of 62, 64 and 170 mV in 0.5 M H2SO4, 1 M KOH and 1 M PBS solution at 10 mA cm-2, surpassing the values for many Ru and Mo2C based catalysts. This work provides a feasible route for designing high performance HER catalysts. [ABSTRACT FROM AUTHOR]

Published

2024

2. PREPARATION AND HARDNESS OF A FUNCTIONALLY GRADED Ni-Al COATING.

Author

Ningning Li, Lei Xu, Liang Huang, Yuping Tong, Zhengquan Jiang, and Keliang Li

Subjects

CARBON steel, HARDNESS, X-ray diffraction, NANOINDENTATION, PHASE diagrams

Abstract

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Published

2023