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乐鱼官方网站:孙华传

editor 提交于 周一, 03/25/乐鱼官方网站 - 11:10

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孙华传,博士,讲师,硕士生导师, 入选云南大学青年人才培优计划

Email: huachuansun@ynu.edu.cn

 

教育和工作经历

1. 2017-09 2022-07, 华中科技大学, 微电子学与固体电子学, 博士

2. 2013-09 2017-06, 云南师范大学, 农业建筑环境与能源工程, 学士

 

主讲课程

《电工电子技术》 《电化学催化》

 

研究领域

1. 单原子催化及大电流密度电解水性能研究

2. 尿素、水合肼、甘油等小分子电氧化及新型燃料电池开发

 

科研与项目情况

申请人主要开展高效稳定且成本低廉的双功能电解水制氢催化剂的研究工作,针对目前催化剂催化活性低、稳定性差以及电流密度低等难题,发展包括高活性、高稳定性的双位点双功能单原子催化剂在内的特异性催化技术;研制出能在大电流密度下工作的多种自支撑镍基催化电极材料,大幅降低了电解水产氢的能耗,并为电解水制氢产业的发展提供重要的理论指导和实践参考。申请人目前以第一作者和共同通讯作者的身份在Journal of the American Chemical Society, ACS Nano, ACS Energy Letter, Applied Catalysis B: Environmental, Small, Research, Chemical Engineering Journal等期刊发表SCI论文20余篇,其中3篇入选ESI 1%高被引论文,两篇入选热点论文,引用超1500次(google学术),h指数17。此外,申请人还作为项目负责人主持云南省面上项目、云南贵金属实验室有限公司开放项目、省教育厅项目合计3项,并作为项目骨干参与科技部重点研发计划项目和国家自然科学基金(面上)项目的研究。

主要学术成果

[1]    Huachuan Sun, Ching-Wei Tung, Yang Qiu, Wei Zhang, Qi Wang, Zhishan Li, Jiang Tang, Hsiao-Chien Chen, Chundong Wang, Hao Ming Chen. “Atomic Metal-support Interaction Enables Reconstruction-free Dual Sites Electrocatalyst”. J. Am. Chem. Soc. 2022, 144, 3, 1174-1186 (SCI收录,化学人最喜欢的顶刊1区,ESI高被引,影响因子:15.0).

[2]    Huachuan Sun, Wei Zhang, Jian-Gang Li, Zhishan Li, Xiang Ao, Kan-Hao Xue, Kostya Ken Ostrikov, Jiang Tang, Chundong Wang. “Rh-engineered ultrathin NiFe-LDH nanosheets enable highly-efficient overall water splitting and urea electrolysis”. Appl. Catal. B-Environ. 284 (2021) 119740. (SCI收录,催化小伙伴都爱的顶刊1区,ESI高被引,影响因子:22.1)

[3]    Huachuan Sun, Linfeng Li, Xuefei Xu, Chundong Wang, Yujie Xiong. “Highly efficient overall urea electrolysis via single-atomically active centers on layered double hydroxide”. Sci. Bull. 67 (2022) 1763–1775 (SCI综合期刊全球排前五(据说前三是Nature,Science,Cell),中科院1区,影响因子:18.9)

[4]    Huachuan Sun, Linfeng Li, Muhammad Humayun, Huaming Zhang, Yanan Bo, Xiang Ao, Xuefei Xu, Kun Chen, Kostya (Ken) Ostrikov, Kaifu Huo, Wenjun Zhang, Chundong Wang, Yujie Xiong. “Achieving Highly Efficient pH-Universal Hydrogen Evolution by Superhydrophilic Amorphous/Crystalline Rh(OH)3/NiTe Coaxial Nanorod Array Electrode”. Appl. Catal. B-Environ. 305 (2022) 121088 (SCI收录,催化顶刊1+1,ESI高被引,影响因子:22.1)

[5]    Huachuan Sun, Jue-Ming Yang, Jian-Gang Li, Zhishan Li, Xiang Ao, Yi-Zhe Liu, Yi Zhang, Yi Li, Chundong Wang, Jiang Tang. “Synergistic coupling of NiTe nanoarrays with RuO2 and NiFe-LDH layers for high-efficiency electrochemical-/photovoltage-driven overall water splitting”. Appl. Catal. B-Environ. 272 (2020) 118988 (SCI收录,催化顶刊1+2,影响因子:22.1).

[6]    Huachuan Sun, Mingpeng Chen, Bin Xiao, Tong Zhou, Muhammad Humayun, Linfeng Li, Qingjie Lu, Tianwei He, Jin Zhang, Mohammed Bououdina, Chundong Wang, Qingju Liu, Interface Engineering Induced Electron Redistribution at PtNs/NiTe-Ns Interfaces for Promoting pH-Universal and Chloride-Tolerant Hydrogen Evolution Reaction, Small. 乐鱼官方网站, 2303974 (SCI收录,中科院2区(质量还是很顶的),影响因子:13.3).

[7]    Boxue Wang, Huachuan Sun*, Mingpeng Chen, Tong Zhou, Hongshun Zheng, Mengling Zhang, Bin Xiao, Jianhong Zhao, Yumin Zhang, Jin Zhang, Qingju Liu * Ru single-atom regulated Ni(OH)2 nanowires coupled with FeOOH to achieve highly efficient overall water splitting at industrial current density. Chem. Eng. J. 479 (乐鱼官方网站) 147500 (共同通讯, SCI收录,工程技术顶刊1区,影响因子:15.1.

[8]    Meng Li,1 Huachuan Sun,1 Jueming Yang, Muhammad Humayun, Linfeng Li, Xuefei Xu, Xinying Xue, Aziz Habibi-Yangjeh, Kristiaan Temst, Chundong Wang. “Mono-coordinated metallocene ligands endow metal-organic frameworks with highly efficient oxygen evolution and urea electrolysis”. Chem. Eng. J. 430 (2022) 132733 (共同一作, SCI收录,工程技术顶刊1+1,影响因子:15.1

[9]    Huachuan Sun, Jian-Gang Li, Lin Lv, Zhishan Li, Xiang Ao, Chenhui Xu, Xinying Xue, Guo Hong, Chundong Wang “Engineering hierarchical CoSe/NiFe layered-double-hydroxide nanoarrays as a high efficient bifunctional electrocatalyst for overall water splitting. J. Power Sources 425 (2019) 138-146. (SCI收录,中科院2,影响因子:9.79)

[10] Jian-Gang Li,§ Huachuan Sun,§ Lin Lv, Zhishan Li, Xiang Ao, Chenhui Xu, Yi Li, Chundong Wang. “Metal-Organic Framework-Derived Hierarchical (Co, Ni)Se2@NiFe LDH Hollow Nanocages for Enhanced Oxygen Evolution”. ACS Appl. Mater. Interf. 2019, 11, 8106-8114. (共同一作,SCI 收录,中科院2,响因子:10.3)

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