翟鹏
副教授/博士生导师
电子邮箱:zhaip@hebut.edu.cn
教育背景:
2006-2010,中国科学技术大学,化学系,本科
2010-2016,北京大学,物理化学专业,博士
工作履历:
2017-2018,荷兰乌德勒支大学 德拜纳米材料科学研究所,博士后
2018-2021,美国路易斯安那州立大学 yl6776永利集团,博士后
2022-至今,永利官网 yl6776永利集团,讲师
研究领域与承担项目:
研究领域:专注于多相催化领域催化剂制备和反应过程研究,过往研究涉及:合成气转化的选择性调控制油品化学品,炔烃二烯烃选择性加氢,低碳烷烃脱氢制烯烃,金属纳米粒子液相合成,石墨烯基材料合成,ALD原子层气相沉积技术,原位漫反射红外研究等。现研究内容主要包括:
1) 负载金属/双金属纳米催化剂可控制备和原位表征。
2) 气固相CO/CO2高效转化路径研究。
3) 塑料废弃物绿色转化过程探索。
个人主页:https://teacher.hebut.edu.cn/publish/202214753aa2fb8c11edab95286ed488d6f1106/
诚邀化学工程与技术和化学工程方向的研究生加入。
基金和项目:
国家自然科学基金 面上项目, 主持,2024年
河北省自然基金委员会 面上项目, 主持,2024年
永利官网“元光学者”启航A岗,100万。
代表性著作:
1. P. Zhai, D. R. Aireddy, M. B. Berko, A. Arshadi, M. J. Zachman, D. A. Cullen, Y. Xu, K. Ding. Anomalous Role of Carbon in Pd-Catalyzed Selective Hydrogenation. Angew Chem Int Edit, 2024, e202421351
2. P. Zhai, D. A. Cullen and K. Ding. The role of surface chemistry in the synthesis of supported CuPd bimetallic/intermetallic catalysts for selective hydrogenation reactions. Chemical Engineering Journal, 2024, 480, 148238.
3. P. Zhai, Z. Xie, E. Huang, D. R. Aireddy, H. Yu, D. A. Cullen, P. Liu, J. G. Chen, K. Ding. CO2-mediated oxidative dehydrogenation of propane enabled by Pt-based bimetallic catalysts. Chem, 2023, 9(11), 3268-3285.
4. P. Zhai, Y. Li, M. Wang, J. Liu, Z. Cao, J. Zhang, Y. Xu, X. Liu, Y. W. Li, Q. Zhu, D. Xiao, X. D. Wen, D. Ma, Development of direct conversion of syngas to unsaturated hydrocarbons based on Fischer−��������Tropsch route, Chem, 2021, 7(11): 3027-3051.
5. P. Zhai, L. Zhang, D. A. Cullen, D. R. Aireddy, K. Ding, Construction of Inverse Metal–Zeolite Interfaces via Area-Selective Atomic Layer Deposition, ACS applied materials & interfaces, 2021, 13.43, 51759-51766.
6. P. Zhai, Y. Shi, Q. Wang, Y. Xia, K. Ding, Elucidating the surface compositions of Pd@ Pt nL core–shell nanocrystals through catalytic reactions and spectroscopy probes, Nanoscale, 2021, 13(44): 18498-18506.
7. P. Zhai, C. Xu, R. Gao, X. Liu, M. Li, W. Li, X. Fu, C. Jia, J. Xie, M. Zhao, X. Wang, Y. Li, Q. Zhang, X. Wen, D. Ma, Highly Tunable Selectivity for Syngas-Derived Alkenes over Zinc and Sodium-Modulated Fe5C2 Catalyst, Angew Chem Int Edit, 2016, 55, 9902-9907. ESI高被引论文
8. P. Zhai, B. Chen, J. Xie, J. Liu, H. Zhao, L. Lin, B. Zhao, Q. Zhu, W. Li, D. Ma, Carbon induced selective regulation of cobalt-based Fischer-Tropsch catalysts by ethylene pretreatment, Faraday Discussions, 2017, 197, 207.
9. P. Zhai, G. Sun, Q. Zhu, D. Ma, Fischer-Tropsch synthesis nanostructured catalysts: understanding structural characteristics and catalytic reaction, Nanotechnol Rev, 2013, 2, 547-576.
10. 翟鹏, 高勇军,李文静, 朱庆军,马丁, 氮掺杂氧化石墨催化苄胺氧化, 中国科学(化学), 2014, 44, 131-137.
11. L. Zhang, P. Zhai, D. R. Aireddy, K. Ding, Encapsulated metals for confined catalysis, Catalysis, 2022, 34: 84-101. (共同一作)
12. B. Zhao, P. Zhai, P. Wang, J. Li, T. Li, M. Peng, Q. Zhang, W. Fan, D. Ma, Direct transformation of syngas to aromatics over Na-Zn-Fe5C2/hierarchical HZSM-5 tandem catalysts, Chem, 2017, 3, 323-333. (共同一作)
13. C. Wang, P. Zhai, Z. Zhang, Y. Zhou, J. Zhang, H. Zhang, Z. Shi, R. Han, F. Huang, D. Ma, Nickel catalyst stabilization via graphene encapsulation for enhanced methanation reaction, J Catal, 2016, 334, 42-51. (共同一作)
14. C. Wang, P. Zhai, Z. Zhang, Y. Zhou, J. Ju, Z. Shi, D. Ma, R. Han, F. Huang, Synthesis of Highly Stable Graphene-Encapsulated Iron Nanoparticles for Catalytic Syngas Conversion, Part Part Syst Char, 2015, 32, 29-34. (共同一作)
15. Y. Xu, P. Zhai, Y. C. Deng, J. L. Xie, X. Liu, S. Wang, D. Ma, Highly Selective Olefin Production from CO2 Hydrogenation on Iron Catalysts: A Subtle Synergy between Manganese and Sodium Additives, Angew Chem Int Edit 2020, 59, 21736-21744.
16. K. Qian, P. Zhai, J. Xian, Q. Hua, K. Chen, W. Huang, Size controlled synthesis of Pd nanoparticles inspired from the Wacker reaction and their catalytic performances, Catal Commun, 2011, 15, 56-59.
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