陈银娟,博士,讲师,硕士研究生导师
Email: chen_yinjuan@hotmail.com
2008.09-2012.06,中国石油大学(华东)材料物理 学士
2012.09-2014.06,中国石油大学(华东)材料科学与工程 硕士研究生 导师:胡松青教授
2014.09-2021.06,中国石油大学(华东)重质油国家重点实验室 博士研究生 导师:刘晨光教授 (国家百千万人才)
2016.11-2021.06,清华大学 化学系 联合培养博士生 导师:李隽教授 (杰青,长江特聘教授)
工作经历:
2021.07-至今 350vip8888新葡的京集团,讲师,研究生导师
个人荣誉:
2012.06山东省优秀毕业生
2021.06中国石油大学(华东),优秀博士学位论文
2023.12350vip8888新葡的京集团青年教师技艺大赛二等奖
社会兼职(社会兼职填是否担任过专业杂志编委、专业委员会委员、专业协会会员等)
中国化学会会员
研究方向:
理论与计算化学
机器学习和人工智能
催化及储能材料理论设计
教学科研项目:
1.江苏省自然科学基金青年基金,碳基单原子催化剂活性位点邻近效应电子结构响应机制,2022-07-01~2025-08-01,(项目编号:BK20220618),主持;
2.北京化工大学-350vip8888新葡的京集团协同创新中心2023年度联合基金项目,CO2环加成高附加值利用催化剂的设计,2023-06-01~2024-06-01,合作方;
3. 2023年度350vip8888新葡的京集团科研立项,S掺杂Fe基单原子催化剂活性中心衍生机制,2023-12-01~2024-12-01,主持。
4. 2022年科研启动经费,ZMF22020049,主持
发表论文:
1. Pan Y†, Lin R†, Chen Y J†, Liu S J, Zhu W, Cao X, Chen W X, Wu K L, Cheong W C, Wang Y, Zheng L R, Luo J, Lin Y, Liu Y Q, Liu C G, Li J, Lu Q, Chen X, Wang D S, Peng Q, Chen C*, Li Y D. Design of Single-Atom Co–N5 Catalytic Site: A Robust Electrocatalyst for CO2 Reduction with Nearly 100% CO Selectivity and Remarkable Stability[J]. Journal of the American chemical society,2018, 140(12): 4218-4221.
2. Pan Y†, Chen Y J†, Wu K L†, Chen Z, Liu S J, Cao X, Cheong W C, Meng T, Luo J, Zheng L R, Liu C G*, Wang D C, Peng Q, Li J, Chen C*. Regulating the Coordination Structure of Single Atom Fe-NxCy Catalytic Sites for Benzene Oxidation[J]. Nature Communication,2019, 10(1): 4290-4301.
3. Liu W G†, Chen Y J†, Qi H F†, Zhang L L, Yan W S, Liu X Y, Yang X F, Miao S, Wang W T, Liu C G, Wang A Q*, Li J*, Zhang T.A Durable Nickel Single‐Atom Catalyst for Hydrogenation Reactions and Cellulose Valorization under Harsh Conditions[J]. Angewandte Chemie International Edition,2018, 130(24): 7189-7193
4. Xing H R, Arif M, He G Y, Xiao H,Chen Y J*, Chen H Q*. Insights into the Critical Roles of γN Atoms in Understanding the Oxygen Reduction on MOF-derived Single-atom Catalysts[J]. Science China Materials,2023. Doi:org/10.1007/s40843-023-2447-4
5. Pan Y*, Wang M M, Li M, Sun G X, Chen Y J*, Liu Y Q, Zhu W, Wang B*. In-situ construction of N-doped carbon nanosnakes encapsulated FeCoSe nanoparticles as efficient bifunctional electrocatalyst for overall water splitting[J]. Journal of Energy Chemistry, 2022, 68: 699-708.
6. Chen Y, Tian Q, Wang H Y, Ma R N, Han R T, Wang Y, Ge H B, Ren Y J, Yang R, Yang H M, Chen Y J, Duan X Z, Zhang L B*, Gao J*, Gao L Z*, Yan X Y, Qin Y*. A Manganese‐Based Metal–Organic Framework as a Cold‐Adapted Nanozyme[J]. Advanced Materials,2022: 36(10): 2206421.
7. Chen Y J, Zhuo H Y, Pan Y, Liang J X*, Liu C G*, Li J*. Triazine COF-supported single-atom catalyst (Pd1/trzn-COF) for CO oxidation[J]. Science China Materials,2021, 64(8): 1939-1951.
8. Liu S J†, Chen Y J†, Yu L, Lin Y, Liu Z, Wang M M, Chen Y J, Zhang C, Pan Y*, Liu Y Q, Liu C G. A supramolecular-confinement pyrolysis route to ultrasmall rhodium phosphide nanoparticles as a robust electrocatalyst for hydrogen evolution in the entire pH range and seawater electrolysis [J]. Journal of Materials Chemistry A, 2020, 8(48): 25768-25779.
9. Chen Z, Chen Y J†, Chao S L, Dong X B, Chen W X, Luo J, Liu C G, Wang D S, Chen C, Li W*, Li J*, Li Y D*. Single Atom AuI-N3 Site for Acetylene Hydrochlorination Reaction[J]. ACS Catalysis,2020, 10(3): 1865-1870.
10. Zhao Y T, Xing H R, Wang Q, Chen Y J, Xia J W, Xu H, He G Y, Yin F X, Chen Q*, Chen H Q*. Engineering atomically dispersed single Cu–N3 catalytic sites for highly selective oxidation of benzene to phenol[J]. Inorganic Chemistry Frontiers,2022, 9(11): 2637-2643.
11. Li L, Chen Y J, Xing H R, Li N, Xia J W, Qian X Y, Xu H, Li W Z, Yin F X, He G Y*, Chen H Q*. Single-atom Fe-N5 catalyst for high-performance zinc-air batteries[J]. Nano Research, 2022, 15(9): 8056-8064.
12. Wu Y L, Fan X, Chen Y J, Gaddam R R, Feng Y, Xiao C L, Lin C F, Zhao Q L, Sun X M, Wang H X, Liu C G, Li J, Zhao X S*. Fluorine Substitution Enabling Pseudocapacitive Intercalation of Sodium Ions in Niobium Oxyfluoride[J]. Journal of Materials Chemistry A,2019, 7(36): 20813-20823.
13. Pan Y, Lin Y, Chen Y J, Liu Y Q*, Liu C G*. Cobalt Phosphide-Based Electrocatalysts: Synthesis and Phase catalytic Activity Comparison for Hydrogen Evolution[J]. Journal of Materials Chemistry A,2016, 4(13): 4745-4754.
14. Pan Y, Yang N, Chen Y J, Lin Y, Li Y P, Liu Y Q*, Liu C G*. Nickel Phosphide Nanoparticles-Nitrogen-Doped Graphene Hybrid as an Efficient Catalyst for Enhanced Hydrogen Evolution Activity[J]. Journal of Power Sources,2015, 297: 45-52.
15. Pan Y, Chen Y J, Lin Y, Cui P X, Sun K A, Liu Y Q*, Liu C G. Cobalt Nickel Phosphide Nanoparticles Decorated Carbon Nanotubes as Advanced Hybrid Catalysts for Hydrogen Evolution[J]. Journal of Materials Chemistry A, 2016, 4(38): 14675-14686.
16. Gou J X, Xie S L, Yang Z C, Liu Y Q, Chen Y J, Liu Y R, Liu C G*. A High-Performance Supercapacitor Electrode Material Based on Nis/Ni3S4 Composite[J]. Electrochimica Acta, 2017, 229(1): 299-305.
17. Zeng L Y, Sun K A, Chen Y J, Liu Z, Chen Y J, Pan Y*, Zhao R Y, Liu Y Q*, Liu C G. Neutral-pH Overall Water Splitting Catalyzed Efficiently by a Hollow and Porous Structured Ternary Nickel Sulfoselenide Electrocatalyst[J]. Journal of Materials Chemistry A,2019, 7(28): 16793-16802.
18. Lin Y, Pan Y*, Zhang J*, Chen Y J, Sun K A, Liu Y Q*, Liu C G. Graphene Oxide Co-Doped with Nitrogen and Sulfur and Decorated with Cobalt Phosphide Nanorods: An Efficient Hybrid Catalyst for Electrochemical Hydrogen Evolution[J]. Electrochimica Acta,2016, 222(20): 246-256.
19. Zeng L Y, Liu Z, Sun K A, Chen Y J, Zhao J C, Chen Y J, Pan Y*, Lu Y K, Liu Y Q*, Liu C G. Multiple Modulations of Pyrite Nickel Sulfides Via Metal Heteroatom Doping Engineering for Boosting Alkaline and Neutral Hydrogen Evolution[J]. Journal of Materials Chemistry A,2019, 7(44): 25628-25640.
20. Pan Y, Chen Y J, Li X, Liu Y Q*, Liu C G*. Nanostructured Nickel Sulfides: Phase Evolution, Characterization and Electrocatalytic Properties for the Hydrogen Evolution Reaction[J]. RSC Advances,2015, 5(127): 104740-104749.
21. Bai H, Zhu X, Ao H, He G*, Xiao H, Chen Y J*. Advances in sodium-ion batteries at low-temperature: Challenges and strategies[J]. Journal of Energy Chemistry. 2023, 90: 518-539.
22. Arif M, Mahsud A, Ali A, Liao S, Xia J, Xiao H, Azam M, Muhmood T*, Lu Z*, Chen Y J*. Unraveling the synergy of interface engineering α-MnO2/Bi2WO6 heterostructures and defective active sites for superdurable photocatalysis: Mechanistic insights into charge separation/transfer[J]. Chemical Engineering Journal. 2023, 475: 146458.