邮箱1610984408@qq.com

教育经历

2011.09-2015.07 燕山大学 应用化学 学士学位

2015.09-2021.01 燕山大学 化学工程与技术 硕博连读

工作经历

2021.05-2023.05 天津科技大学 化工与材料学院 博士后

2023.06-至今 天津科技大学化工与材料学院教师 助理研究员

研究方向

纳米材料的合成 电催化

科研成果

发表论文

[1] Kuo Wei; Zhiping Liu; Guangyuan Feng; Yuanzhe Wang; Shaofang Zhang; Xiaojuan Li; Miao Zhang; Heen Li; Junshuang Zhou; Shengbin Lei; Faming Gao ; Molecular nanojunction catalyst for oxygen evolution reaction, Advanced Energy Materials, 2025, 202405366 (共同通讯作者).

[2] Yuanzhe Wang; Kuo Wei; Yanli Song; Adekunle Adedapo Obisanya; Heen Li; Jing Wang; Hongguan Li; Faming Gao; Ru-Mn pair-site triggers key oxygen intermediate for enhanced acidic oxygen evolution reaction kinetics, Chemical Engineering Journal, 2024, 497: 154724.

[3] Yuanzhe Wang, Heen Li, Fei Peng, Faming Gao, Boron Induced Electron-rich Single Iron Sites for Boosted N2 Electroreduction Reaction. Chemical Engineering Journal, 2022, 445: 136692.

[4] Yuanzhe Wang; Jing Wang; Heen Li; Yaguang Li; Junkai Li; Kuo Wei; Fei Peng; Faming Gao; Nitrogen reduction reaction: heteronuclear double‐atom electrocatalysts, Small Structures, 2023, 4: 2200306。

[5] Yuanzhe Wang, Shanshan Liu, Xianfeng Hao, Junshuang Zhou, Dandan Song, Dong Wang, Li Hou, Faming Gao, Fluorine- and Nitrogen-codoped MoS2 with a Catalytically Active Basal Plane. ACS Applied Materials & Interfaces, 2017, 9(33): 27715-27719.

[6] Yuanzhe Wang, Yanyan Zhou, Minze Han, Yaokai Xi, Huanhuan You, Xianfeng Hao, Zhiping Li, Junshuang Zhou, DanDan Song, Dong Wang, Faming Gao, Environmentally-Friendly Exfoliate and Active Site Self-Assembly: Thin 2D/2D Heterostructure Amorphous Nickel-iron Alloy on 2D Materials for Efficient Oxygen Evolution Reaction. Small, 2019, 15(16): 1805435.

[7] Yuanzhe Wang, Shanshan Liu, Xianfeng Hao, Sunrui Luan, Huanhuan You, Junshuang Zhou, Dandan Song, Dong Wang, Li Hou, Faming Gao, Surface Reorganization Engineering of the N-doped MoS2 Heterostructures MoOx@N-doped MoS2-x by in Situ Electrochemical Oxidation Activation for Efficient Oxygen Evolution Reaction . Journal of Materials Chemistry A, 2019, 7(17): 10572-10580.

[8] Yuanzhe Wang, Jing Wang, Heen Li, Yaguang Li, Junkai Li, Kuo Wei, Fei Peng, Faming Gao, Nitrogen Reduction Reaction: Heteronuclear Double-Atom Electrocatalysts. Small Structures, 2023, 2200306.

[9] Yuanzhe Wang, Dong Wang, Jiajia Gao, Xianfeng Hao, Zhiping Li, Junshuang Zhou, Faming Gao, Optimized Electronic Structure and p-band Centre Control Engineering to Enhance Surface Absorption and Inherent Conductivity for Accelerated Hydrogen Evolution over a Wide pH Range. Physical Chemistry Chemical Physics, 2020, 22(26): 14537-14543.

[10] Yuanzhe Wang, Heen Li, Dong Wang, Shuolei Deng, Yaokai Xi, Yuanyuan Guo, Junshuang Zhou, Xianfeng Hao, Zhiping Li, Faming Gao, Controlling Hydrogenation Pathway by Metal Hydride Enable Efficient Electrocatalytic N2 Fixation. International Journal of Hydrogen Energy, 2021, 46(27): 14351-14358.

[11] H Hu; K Wei; Y L. Song; M Wu; S S Pang, M D Li, Y Z Wang, N, P-doped NiCo2S4 nanospheres with excellent hydrophilicity for efficient oxygen evolution reaction, Journal of Alloys and Compounds, 2024, 999, 175093(共同通讯作者).
[12] K Wei, M Wu, Y L Song, H Hu, Y Z Wang, R J Xie, M D Li, Q C Pang, F M Gao, Phase adjustment and electronic orbital matching triggered efficient H2 production of 2D electrocatalysts in a wide pH range, Applied Surface Science, 2024, 665, 160343(共同通讯作者).
[13] Y L Song; X Zhou; K Wei; H Hu; M Wu; M D Li; R J Xie; Y Z Wang; F M Gao, Sulfur vacancies and group VB metal atoms doping to synergistically optimize hydrogen evolution of MoS2 nanosheets, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2024, 690,133795(共同通讯作者).

主持/参与项目

1. 铂基多主元高熵合金纳米管催化剂的可控合成、生长机理及电催化性能，2024-2027, 50万元, 在研, 参与.

2. 类淀粉蛋白诱导高活性一维亚纳米(sub-1 nm) 铂基合金的合成、生长机理及电催化性能, 2019-2022, 64万元, 结题, 参与.

3. 氢燃料电池电极催化剂制备技术研究，2022-2023, 50万元, 结题, 参与.

国家专利

[1] 高发明，王远哲, 刘姗姗, 周军双, 王栋, 郝险峰. 一种氟、氮共掺杂的二硫化钼制备方法, 专利号：ZL201710312767.1

[2] 高发明，刘辉, 王远哲. 以卵清溶菌酶为模板制备Rh-Ni纳米粒子链的方法, 专利号：201610297342

[3] 高发明, 庞珊珊, 王远哲, 位阔, 张冬, 一种B-S共掺的镍钴基电解水析氧催化剂的制备方法, 专利号：ZL202210918217.5