彭显云

发布者:周玉立发布时间:2021-11-22浏览次数:1121

彭显云 博士

PENG Xianyun,Ph.D.

职务:特聘副研究员

研究所:工业生态研究所

研究方向:

单原子催化剂及亚纳米催化剂

能源存储、转化及调控机制

小分子绿色电催化转化技术

氢能制备、存储与应用

E-mailxianyunpeng@zju.edu.cn


个人简介

彭显云(1989-),云南昭通人。

2012年本科毕业于河南理工大学材料科学与工程学院,材料成型及控制工程专业,获学士学位;

2015年硕士毕业于河南理工大学材料科学与工程学院,材料科学与工程专业,获硕士学位;主要从事储氢材料和镍氢电池的研究;

2015-2017年期间先后在韩国汉阳大学、澳门大学和复旦大学交流学习;主要从事储氢材料和超级电容器的研究;

2021年博士毕业于天津理工大学材料科学与工程学院,材料科学与工程专业,获博士学位,主要从事单原子催化剂制备及其电催化应用研究;

20219月全职加入浙江大学衢州研究院,任特聘副研究员,致力于单原子催化剂及亚纳米催化剂的小分子绿色电催化转化和氢能的制备、存储与应用。


学术成果

彭显云博士致力于单原子催化剂在能源领域和产业化进程的科学研究。旨在研究研究基于单原子催化剂的小分子物质(H2O2N2CO2NOH2O等)电化学制备、存储、转换和利用。主要从材料和机理两个方面开展研究工作:在原子尺度精准设计金属基催化剂表界面活性位点,并调控其配位原子结构和电子结构;在原子分子尺度探索小分子物质活化转化过程中的关键过程和调控机制。迄今为止,已发表SCI学术论文26篇。近五年,以第一\共一作者在Nature CommunicationsNano EnergyACS NanoJournal of Materials Chemistry ASmall等期刊上发表学术论文17篇。作为项目骨干参与国家自然科学基金面上项目3项、青年科学基金项目1项。


代表论文

[1]Xianyun Peng, Yuying Mi, Haihong Bao, Yifan Liu, Defeng Qi, Yuan Qiu,* Longchao Zhuo, Shunzheng Zhao,* Jiaqiang Sun, Xiaolong Tang,* Jun Luo, Xijun Liu*. Ambient Electrosynthesis of Ammonia with Efficient Denitration. Nano Energy 2020, 78, 105321.

[2]Xianyun Peng, Shunzheng Zhao, Yuying Mi, Lili Han, Xijun Liu,* Defeng Qi, Jiaqiang Sun, Yifan Liu, Haihong Bao, Longchao Zhuo, Huolin L. Xin,* Jun Luo, Xiaoming Sun. Trifunctional Single-Atomic Ru Sites Enable Efficient Overall Water Splitting and Oxygen Reduction in Acidic Media. Small 2020, 16 (33): e2002888.

[3]Haihong Bao,† Yuan Qiu,† Xianyun Peng,† Jia-ao Wang,† Yuying Mi, Shunzheng Zhao, Xijun Liu,* Yifan Liu, Rui Cao,* Longchao Zhuo, Junqiang Ren, Jiaqiang Sun, Jun Luo, Xuping Sun*. Isolated Copper Single Sites for High-Performance Electroreduction of Carbon Monoxide to Multicarbon Products. Nat. Commun. 2021, 12, 238.

[4]Xianyun Peng, Yuying Mi, Xijun Liu,* Jiaqiang Sun, Yuan Qiu, Shusheng Zhang, Xiaoxing Ke, Xinzhong Wang,* and Jun Luo*. Self-Driven Dual Hydrogen Production System Based on Bifunctional Single-Atomic Rh Catalyst. J. Mater. Chem. A 2021, DOI: 10.1039/D1TA07375C.

[5]Xianyun Peng,† Junrong Hou,† Yuying Mi, Jiaqiang Sun, Gaocan Qi, Yongji Qin,* Shusheng Zhang, Yuan Qiu, Jun Luo, Xijun Liu*. Bifunctional Single-atomic Mn Sites for Energy-Efficient Hydrogen Production. Nanoscale 2021, 13, 4767.

[6]Xianyun Peng† Haihong Bao,† Jiaqiang Sun, Zhiyong Mao,* Yuan Qiu, Zhaojun Mo,* Longchao Zhuo, Shusheng Zhang, Jun Luo, and Xijun Liu*. Heteroatom Coordination Induces Electric Field Polarization of Single Pt Sites to Promote Hydrogen Evolution Activity. Nanoscale 2021, 13, 7134–7139.

[7]Ying Chen,† Ruijie Guo,† Xianyun Peng,† Xiaoqian Wang,† Xijun Liu,* Junqiang Ren, Jia He, Longchao Zhuo, Jiaqiang Sun, Yifan Liu, Yuen Wu,* Jun Luo*. Highly Productive Electrosynthesis of Ammonia by Admolecule-Targeting Single Ag Sites. ACS Nano 2020, 14 (6): 6938–6946.

[8]Xianyun Peng,† Ying Chen,† Yuying Mi, Longchao Zhuo, Gaocan Qi,* Junqiang Ren, Yuan Qiu, Xijun Liu,* Jun Luo. Efficient Electroreduction CO2 to CO over MnO2 Nanosheets. Inorg. Chem. 2019, 58 (14): 8910–8914.

[9]Sibo Shen,† Xianyun Peng,† Lida Song, Yuan Qiu, Chao Li, Longchao Zhuo, Jia He,* Junqiang Ren, Xijun Liu,* Jun Luo. AuCu Alloy Nanoparticle Embedded Cu Submicrocone Arrays for Selective Conversion of CO2 to Ethanol. Small 2019, 15 (37): e1902229.

[10]Zhe Zhao,† Xianyun Peng,† Xijun Liu,* Xiaoming Sun, Jing Shi, Lili Han, Guoliang Li, Jun Luo*. Efficient and Stable Electroreduction of CO2 to CH4 on CuS Nanosheet Arrays. J. Mater. Chem. A 2017, 5 (38): 20239–20243.

[11]Sibo Shen,† Jia He,† Xianyun Peng,† Wei Xi, Lihan Zhang, Desheng Xi, Lei Wang, Xijun Liu,* Jun Luo*. Stepped Surface-Rich Copper Fiber Felt as an Efficient Electrocatalyst for the CO2RR to Formate. J. Mater. Chem. A 2018, 6 (39): 18960–18966.

[12]Yajiao Huo,† Xianyun Peng,† Xijun Liu,* Huaiyu Li, Jun Luo*. High Selectivity Toward C2H4 Production over Cu Particles Supported by Butterfly-Wing-Derived Carbon Frameworks. ACS Appl. Mater. Interfaces 2018, 10 (15): 12618–12625.

[13]Xianyun Peng, Baozhong Liu,* Yanping Fan, Xilin Zhu, Qiuming Peng, Zhi Zhang. Microstructures and Electrochemical Hydrogen Storage Characteristics of La0.7Ce0.3Ni4.2Mn0.9xCu0.37(Fe0.43B0.57)x (x = 0–0.20) Alloys. J. Power Sources 2013, 240 (0): 178–183.

[14]Xianyun Peng, Baozhong Liu,* Yanping Fan, Liqiang Ji, Baoqing Zhang, Zhi Zhang. Microstructures and Electrochemical Characteristics of La0.7Ce0.3Ni4.2Mn0.9−xCu0.37(V0.81Fe0.19)x Hydrogen Storage Alloys. Electrochim. Acta 2013, 93 (0): 207–212.

[15]Xianyun Peng, Baozhong Liu,* Xin Zhao, Yanping Fan, Qiuming Peng,* Shumin Han. Effects of Ultra-High Pressure on Phase Compositions, Phase Configurations and Hydrogen Storage Properties of LaMg4Ni Alloys. Int. J. Hydrogen Energy 2014, 38 (34): 14661–14667.

[16]Xianyun Peng, Baozhong Liu,* Yu Zhou, Yanping Fan, Yonggang Yang, Qian Li. Microstructures and Electrochemical Hydrogen Storage Characteristics of La0.65-xCe0.25-xPr0.03Nd0.07Y2xNi3.65Co0.75Mn0.3Al0.3 (x = 0-0.04) Alloys. Int. J. Electrochem. Sci. 2013, 8(2): 2262–2271.

[17]Xianyun Peng, Baozhong Liu,* Yanping Fan, Liqiang Ji, Baoqing Zhang, Zhi Zhang. Phase Structure and Electrochemical Hydrogen Storage Characteristics of La0.7Ce0.3Ni3.85Mn0.8Cu0.4Fe0.15-x(Fe0.43B0.57)x (x = 0-0.15) Alloys. Int. J. Electrochem. Sci. 2013, 8(0): 3419–3428.

[18]Xianyun Peng, Baozhong Liu,* Yanping Fan, Liqiang Ji, Qian Li, Zhi Zhang. Crystallographic and Electrochemical Performances of La0.7Ce0.3Ni3.65Co0.1Mn0.35Al0.15Cu0.75-xVx (x = 0.05-0.20) Alloys. Int. J. Electrochem. Sci. 2013, 8 (5): 7371–7380.