武平
所属学院:轻工化工学院
导师类别:硕士生导师
邮箱:wp123555@gdut.edu.cn
个人简述:
武平,博士,特聘副教授,广东工业大学“青年百人计划”A类引进人才。主要基于第一性原理的理论方法研究表/界面微观催化反应机理及功能性新材料的设计,结合多尺度模拟方法,探索微观结构与宏观性质之间的构效关系,迄今为止,已在物理/化学/材料学科主流期刊上发表学术论文18篇,其中一作7篇,共同一作2篇,其中1篇JACS(影响因子13.04), 1篇Phy. Rev. L(影响因子7.65),1篇ACS Catal.(影响因子11.38),1篇Small(影响因子8.32),1篇Applied Catalysis B: Environmental(共一,影响因子11.70),1篇NPG Asia Materials(共一,影响因子8.77)。
教育经历:
2008.09–2014.07博士研究生,凝聚态物理,合肥微尺度物质科学国家研究中心中国科学技术大学。导师:李震宇教授
2012.12–2013.05公派出国,美国橡树岭国家实验室,导师:江德恩研究员
2004.09–2008.07本科,物理系,聊城大学
工作经历:
2019.05–现在 特聘副教授,轻工化工学院,广东工业大学
2017.02–2019.03博士后,物理系,悉尼大学,合作导师:Catherine Stampfl教授,黄骏副教授
2014.10–2016.10博士后,凝聚态物理,合肥微尺度物质科学国家研究中心,国际功能材料量子设计中心,中国科学技术大学,合作导师:何启明教授(Ho Kai-Ming)
研究领域
1、催化剂材料理论设计,研究的反应包括甲烷活化反应、CO2转化、甲醇水相反应制造氢等;
2、功能材料的理论设计和计算表征;
科研经费
广东工业大学青年百人计划科研启动基金,2019-2024,在研,主持
中国博士后基金项目,8万,主持,2015.5-2016.10 已结题
代表文章
1. Cooperation of Ni and CaO at Interface for CO2Combined Theoretical and Experimental Study. Ping Wu, Yongwen Tao, Huajuan Ling, Zibin Chen, Jia Ding, Xin Zeng, Xiaozhou Liao, Catherine Stampfl,* and Jun Huang*,ACS Catal.9, 10060−10069 (2019).
2. Fe–Si networks in Na2FeSiO4cathode materials. Ping Wu, Shunqing Wu*, Xiaobao Lv, Xin Zhao, Zhuo Ye, Zijing Lin, Cai- Zhuang Wang, and Kai-Ming Ho*,Phys. Chem. Chem. Phys.2016, 18, 23916-23922 (IF=4.45, citation = 3).
3. Carbon Dimers as the Dominant Feeding Species in Epitaxial Growth and Morphological Phase Transition of Graphene on Different Cu Substrates. Ping Wu, Yue Zhang, Ping Cui, Zhenyu Li,* Jinlong Yang, and Zhenyu Zhang†Phys. Rev. Lett.2015, 114, 216102.
4. Bilayer Graphene Growth via a Penetration Mechanism. Ping Wu, Xiaofang Zhai, Zhenyu Li,* and Jinlong Yang,J. Phys. Chem. C 2014,118, 6201-6206.
5. Mechanisms of Graphene Growth on Metal Surfaces: Theoretical Perspectives. Ping Wu, Wenhua Zhang, Zhenyu Li*, and Jinlong Yang*.Small 2014 10, 2136.
6. Lattice Mismatch Induced Nonlinear Growth of Graphene. Ping Wu, Huijun Jiang, Wenhua Zhang, Zhenyu Li,* Zhonghuai Hou,* and Jinlong Yang. J. Am. Chem. Soc.2012, 134, 6045-6051.
7. Coalescence of carbon atoms on Cu(111) surface: Emergence of a stable bridging-metal structure motif. Ping Wu, Wenhua Zhang, Zhenyu Li,* Jinlong Yang, and Jian Guo Hou. J. Chem. Phys.2010, 133, 071101.
8. Unravelling the effects of layered supports on Ru nanoparticles for enhancing N2reduction in photocatalytic ammonia synthesis. Huimin Liu,1Ping Wu,1Haitao Li, Zibin Chen, Lizhuo Wang, Xin Zeng, Yuxiang Zhu,Yijiao Jiang, Xiaozhou Liao, Brian S. Haynes, Jinhua Ye, Catherine Stampfl,* Jun Huang,*Applied Catalysis B: Environmental 259, 118026 (2019).(1:共同第一作者)
9. Doping-induced structural phase transition in cobalt diselenide enables enhanced hydrogen evolution catalysis. Ya-Rong Zheng,Ping Wu, Min-Rui Gao, Xiao-Long Zhang, Fei-Yue Gao, Huan-Xin Ju, Rui Wu, Qiang Gao, Rui You, Wei-Xin Huang, Shou-Jie Liu, Shan-Wei Hu, Junfa Zhu, Zhenyu Li, Shu-Hong Yu*,Nature Communications 2018, 9, 2533.
10. Mo2C nanoparticles embedded within bacterial cellulose-derived 3D N-doped carbon nanofiber networks for efficient hydrogen evolution. Zhen-Yu Wu1, Bi-Cheng Hu1,Ping Wu1, Hai-Wei Liang, Zhi-Long Yu, Yue Lin, Ya-Rong Zheng, Zhenyu Li,* and Shu-Hong Yu* (1:共同一作)NPG Asia Materials.2016, 8, e288-8.
教学活动
《绿色化学与化工》