姓名:闫伟
邮箱:yanwei1204@qq.com
研究方向:燃料电池阴极催化剂与电解海水制氢
个人履历:
闫伟,1995年12月生,山东沂水人,博士,2024年博士毕业于中国石油大学(华东),现为理学院新能源科学与工程系教师。目前以第一/通讯作者在Adv. Funct. Mater.; Small;J. Energy Chem.等期刊发表SCI学术论文11篇,以第一作者申请国家发明专利一项。
学术及科研成果
论文及专著:
[1]Wei Yan, Wenmiao Chen*, Yanli Chen*. Recent design strategies for M-N-C single-atom catalysts in oxygen reduction: an entropy increase perspective [J]. AdvancedFunctional Materials, 2024, 202401027.
[2]Wei Yan, Qianli Xing, Jianwei Ren, Hao Feng, Jinshi Yu, Hao Liu, Wenmiao Chen, Kang Wang,Yanli Chen*.Enhancedactivity ofsmall Ptnanoparticlesdecorated withhigh-loadingsingle Fe–N4formethanoloxidation andoxygenreduction via theassistiveactivesitesstrategy[J]. Small, 2023, 2308473.
[3]Wei Yan, Ouyang Guo, Qianli Xing, Meijing Liao, Zhuang Shi, Hao Feng, Yuexing Zhang*, Xiyou Li*, Yanli Chen*. Atomically dispersed Ni–N4sites assist Pt3Ni nanocages with Pt skin to synergistically enhance oxygen reduction activity and stability [J]. Small, 2023, 2300200.
[4]Wei Yan, Yanling Wu, Yanli Chen*, Qi Liu, Kang Wang, Ning Cao, Fangna Dai, Xiyou Li*, Jianzhuang Jiang*.Facile preparation of N-doped corncob-derived carbon nanofiber efficiently encapsulating Fe2O3nanocrystals towards high ORR electrocatalytic activity.Journal of Energy Chemistry,2020, 44:121–130
[5]Wei Yan, Zhuang Shi, Hao Feng, Jinshi Yu, Wenmiao Chen*, Yanli Chen*.Crystalline metal phosphide-coated amorphous iron oxide-hydroxide (FeOOH) with oxygen vacancies as highly active and stable oxygen evolution catalyst in alkaline seawater at high current density.Journal of Colloid and Interface Science. 2024,667:362–370.
[6]Wei Yan, Qianli Xing, Ouyang Guo, Hao Feng, Heyuan Liu, Prashant Deshlahra*, Xiyou Li*, Yanli Chen*. A combination of “push effect” strategy with “triple-phase-boundary engineering” on iron porphyrin-based MOFs: enhanced selectivity and activity for oxygen reduction [J]. ACS Applied Materials & Interfaces 2022, 14(45): 50751–50761.
[7]Wei Yan, Shoufu Cao, Heyuan Liu*, Qianli Xing, Jianwei Ren, Zhi Li, Xiyou Li*, Xiaoqing Lu, Yanli Chen*. Facile solid-phase method for preparing a highly active and stable PtZn-based oxygen reduction/hydrogen evolution bifunctional electrocatalyst: effect of bi-facet lattice strain on catalytic activity [J]. ACS Applied Energy Materials, 2022, 5(11): 13791–13801.
[8]Wei Yan, Shoufu Cao, Zuoxu Xiao, Fangna Dai, Tao Xing, Zhi Li, Yanli Chen*, Xiaoqing Lu*, Xiyou Li*. Novel heteroatom sulfur porphyrin organic polymer as a metal-free electrocatalyst for acidic oxygen reduction reaction [J]. Electrochimica Acta, 2021, 377: 138107.
[9]HaoFeng,Wei Yan*, Zhuang Shi, Hao Song, Hongyan Zhuo, Wenmiao Chen*, Yanli Chen*. Dual anchoring strategy for preparing Fe single-atom modified Pt nanoparticles as highly stable oxygen reduction electrocatalysts [J]. Journal of Power Sources,
[10]Jianwei Ren+,Wei Yan+, Xue Liu, Fuling Wang, Qianli Xing, Zuoxu Xiao, Heyuan Liu*, Yanli Chen*, Xiyou Li*. Porphyrin polymer-derived single-atom Fe assisted by Fe2O3with oxygen vacancy for efficient oxygen reduction reaction [J]. Applied Surface Science, 2022, 592: 153301.
[11]Qianli Xing+,Wei Yan+, Chuangyu Wei, Zuoxu Xiao, Zhicheng Jin, Xue Liu, Jianwei Ren, Yanli Chen*, Xiyou Li*.Controlled preparation andanti-sulfateelectrocatalysis ofself-assembledmultidimensional PtZnquasi-cubicnanodendrites[J]. Advanced Materials Interfaces, 2022, 2101944.
国家发明专利:
[1]闫伟,陈艳丽,邢涛,李智,肖作旭,陈虎.一种PtZn负载氮掺杂碳催化剂及其制备方法,以及氢氧燃料电池: 202110830778.5[P]. 2021-07-22.
