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Ziyuan Xu

ORCID: 0009-0003-8534-0206
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About
Contact & Profiles
A5012603095
Research Areas
  • Electrocatalysts for Energy Conversion
  • High Entropy Alloys Studies
  • Advanced battery technologies research
  • Catalytic Processes in Materials Science
  • Intermetallics and Advanced Alloy Properties
  • Chemical Looping and Thermochemical Processes
  • Semiconductor materials and interfaces
  • High-Temperature Coating Behaviors
  • Molecular Junctions and Nanostructures
  • Phase Equilibria and Thermodynamics
  • Advancements in Solid Oxide Fuel Cells
  • Advanced Photocatalysis Techniques

Shenzhen Institutes of Advanced Technology
 2025

Chinese Academy of Sciences
 2025

Northwestern Polytechnical University
 2022-2024

University of Shanghai for Science and Technology
 2023

 Interface enables faster surface reconstruction in a heterostructured Co–Ni–S electrocatalyst towards efficient urea oxidation
OPENALEX - Publications 
Ziyuan Xu Qiao Chen Qing‐Xi Chen Pan Wang Jiaxuan Wang and 4 more Chang Guo Xueyuan Qiu Xiao Han Jianhua Hao

The electrocatalytic urea oxidation reaction (UOR) can be utilized as an alternative anodic for water electrolysis to provide more economic electrons and high-efficiency H 2 production.

10.1039/d2ta05494a article EN Journal of Materials Chemistry A 2022-01-01
 Atomic phosphorus induces tunable lattice strain in high entropy alloys and boosts alkaline water splitting
OPENALEX - Publications 
Qiao Chen Xiao Han Ziyuan Xu Qing‐Xi Chen Qingfeng Wu and 7 more Tao Zheng Pan Wang Zhijun Wang Jincheng Wang Hejun Li Zhenhai Xia Jianhua Hao

10.1016/j.nanoen.2023.108380 article EN Nano Energy 2023-03-24
 Eutectic dual-phase microstructure modulated porous high-entropy alloys as high-performance bifunctional electrocatalysts for water splitting
OPENALEX - Publications 
Xiao Han Qiao Chen Qing‐Xi Chen Qingfeng Wu Ziyuan Xu and 10 more Tao Zheng Weizhao Li Dingcong Cui Zhiyao Duan Jing Zhang Junjie Li Hejun Li Zhijun Wang Jincheng Wang Zhenhai Xia

High entropy alloys (HEAs) are promising as multifunctional electrocatalysts owing to their inherent compositional and structural complexity thus the multiple active sites for different reactions.

10.1039/d2ta01701f article EN Journal of Materials Chemistry A 2022-01-01
 Ultrafast Synthesis of Transition Metal Phosphides in Air via Pulsed Laser Shock
OPENALEX - Publications 
Ziyuan Xu Qiao Chen Xiao Han Jiaxuan Wang Pan Wang and 6 more Tao Zheng Sin‐Yi Pang Jincheng Wang Hejun Li Zhenhai Xia Jianhua Hao

Transition metal phosphide nanoparticles (TMP NPs) represent a promising class of nanomaterials in the field energy; however, universal, time-saving, energy-efficient, and scalable synthesis method is currently lacking. Here, facile approach first introduced using pulsed laser shock (PLS) process mediated by metal-organic frameworks, free any inert gas protection, enabling diverse TMP NPs. Additionally, through thermodynamic calculations experimental validation, phase selection competition...

10.1021/acs.nanolett.4c03410 article EN Nano Letters 2024-09-20
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