姓名：孙永秀

邮箱：1252385351@qq.com

研究方向：新型二维电催化材料的设计与理论研究

个人履历：

孙永秀，1995年10月生，山东沂水人，博士，2024年博士毕业于电子科技大学，现为理学院新能源科学与工程系教师。目前以第一/通讯作者在Small;J. Colloid Interf. Sci.; ChemSusChem; Int. J. Hydrogen Energ.等期刊发表SCI学术论文7篇。

学术及科研成果

论文及专著:

[1]Yongxiu Sun,WenwuShi, Yongqing Fu, Haijian Yu, Zhiguo Wang*and Zhijie Li*, The novel π–d conjugated TM₂B₃N₃S₆(TM = Mo, Ti and W) monolayers as highly active single-atom catalysts for electrocatalytic synthesis of ammonia,Journal of Colloid and Interface Science, 650, 2023, 1-12.

[2]Khang Ngoc Dinh⁺,Yongxiu Sun⁺et al, Electronic Modulation of Nickel Disulfide toward Efficient Water Electrolysis,Small, 16, 2020, 1905885.

[3]WYongxiu Sun,Wenwu Shi, Aijian Huang, Mengxuan Sun, Renyong Tu, Zhijie Li*, Zhiguo Wang*, Structural design of π-d conjugated TM_xB₃N₃S₆(x = 2, 3) monolayer toward electrocatalytic ammonia synthesis,ChemSusChem.http://dx.doi.org/10.1002/cssc.202301021

[4]Yongxiu Sun, WenwuShi, Mengxuan Sun, Qisheng Fang, Xiaohe Ren, Yijun Yan, Ziwei Gan, Yongqing Fu, Ahmed Elmarakbi, Zhiguo Wang*and Zhijie Li*, Molybdenum based 2D conductive Metal–Organic frameworks as efficient single-atom electrocatalysts for N₂reduction: A density functional theory study,International Journal of Hydrogen Energy, 48, 2023, 19972-19983.

[5]Yongxiu Sun,Aijian Huang and Zhiguo Wang*, Transition metal atom (Ti, V, Mn, Fe, and Co) anchored silicene for hydrogen evolution reaction,RSC Advances, 9, 2019, 26321-26326.

[6]Yongxiu Sunand Zhiguo Wang*, Density Functional Theory Study on the Hydrogen Evolution Reaction in the S-rich SnS₂Nanosheets,Electrocatalysis, 11, 2020, 604-611.

[7]Yongxiu Sun, Aijian Huang, Zhijie Li, Yongqing Fu and Zhiguo Wang*, Transition Metal Atoms Anchored on CuPS₃Monolayer for Enhancing Catalytic Performance of Hydrogen Evolution Reactions,Electrocatalysis,13, 2022, 494-501.