尹鹏飞 副研究员 硕士生导师
Email:pengfeiyin@tju.edu.cn
研究所:新能源材料研究所
教育背景:
· 2011.09-2015.06 304永利登录入口材料学 博士
· 2008.09-2011.06 河北工业大学材料学 硕士
· 2004.09-2008.06 河北工业大学材料学 学士
工作经历:
· 2021.05-今 304永利登录入口,副研究员
· 2020/04-2021/04,香港城市大学,博士后
· 2016/10-2020/03,新加坡南洋理工大学,博士后
· 2015/09-2016/10,304永利登录入口化工学院,博士后
研究方向
· 研究领域:亚稳材料的可控合成
金属电催化
承担项目
· 国家自然科学基金青年科学基金,项目名称:面缺陷的调控--制备具有非热力学稳定相的Cu催化剂并用于高效CO2电还原,项目编号:52101266,执行年限:2022/01-2024/12,在研,主持
标志性成果
(1) P.-F. Yin, T. Ling, Y.-R. Lu, Z.-W. Xu, S.-Z. Qiao,* X.-W. Du,*CdS Nanoflake Arrays for Highly Efficient Light Trapping,Advanced Materials,2015, 27 (4), 740.
(2) P.-F. Yin, M. Zhou, J.-Z. Chen, C.-L. Tan, G.-G. Liu, Q.-L. Ma, Q.-B. Yun, X. Zhang, H.-F. Cheng, Q.-P. Lu, B. Chen,Y. Chen, Z.-C. Zhang, J.-T. Huang, D.-Y. Hu, J. Wang, Q. Liu, Z.-Y. Luo, Z.-Q. Liu, Y.-Y. Ge, X.-J. Wu, X.-W. Du, H. Zhang,*Synthesis of Palladium-BasedCrystalline@Amorphous Core-ShellNanoplates for Highly Efficient Ethanol Oxidation,Advanced Materials,2020, 32, 2000482.
(3)P.-F. Yin, J. Fu, Q. Yun, B. Chen, G. Liu, L. Li, Z. Huang, Y. Ge, H. Zhang,* Preparation of Amorphous SnO2-Encapsulated Multi-Phased Crystalline Cu Heterostructures for Highly Efficient CO2Reduction,Advanced Materials, 2022,34, 2201114.
(4)P.-F. Yin, J.-J. Wang, Y.-Z. Zhou, J. Mao, W.-J. Qin, S.-Z. Qiao, T. Ling, and X.-W. Du,*Engineering hollow electrodes for hybrid solar cells for efficient light harvesting and carrier collection,Journal of Materials Chemistry A, 2016, 4, 17260.
(5)Q.-L. Ma,‡P.-F.Yin,‡M.-T.Zhao, Z.-Y.Luo, Y. Huang, Q.-Y.He, Y.-Y. Yu, Z.-Q.Liu, Z.-N.Hu, B. Chen, H. Zhang,*MOF-Based Hierarchical Structures for Solar-Thermal Clean Water Production,Advanced Materials, 2019, 31, 1808249.
(6)K.-X. Ren,‡P.-F. Yin,‡,*Y.-Z. Zhou, X.-Z Cao, C.-K. Dong, L. Cui, H. Liu,X.-W. Du,*Localized Defects on Copper Sulfide Surface for Enhanced Plasmon Resonance and Water Splitting,small, 2017, 13, 1700867.
(7)Z.-Z. Shi, W.-P. Li, W.-J. Kang, Y. Feng, Z. Li, X.-Y. Zhong, J. Yang, H. Liu, C.-K. Dong,P.-F. Yin,* F.-R. Chen,* X.-W. Du*,Silver Clusters with Adatoms as a Catalyst for the Oxygen Reduction Reaction,ACS Catalysis,2023, 13, 9181-9189.
(8)E. Zhao, K. Du,P.-F. Yin,*J. Ran, J. Mao, T. Ling,* S.-Z. Qiao,* Advancing Photoelectrochemical Energy Conversion through Atomic Design of Catalysts.Advanced Science,2022, 9 (1), 2104363.
(9)H.-N. Wang, C.-Q. Cheng, K. Du, Z.-W. Xu, E.-L. Zhao, N. Lan,P.‐F.Yin,* T. Ling*,Aplasmonresonanceenhancedphoto‐electrode topromote NH3yield insustainable N2conversion,Chemistry–A European Journal,2023,29 (25), e202300204.
(10)L.-J. Yang, C.-Q. Cheng, X. Zhang, C. Tang, K. Du, Y.-Y. Yang, S.-C. Shen, S.-L. Xu,P.-F. Yin,* H.-W. Liang, T. Ling,* Dual‐site collaboration boosts electrochemical nitrogen reduction on Ru‐S‐C single‐atom catalyst,Chinese Journal of Catalysis,2022, 43(12), 3177-3186.