姓名:李金成
聯(lián)系方式:ljc771017559@163.com(招生咨詢);jinchengli@kust.edu.cn
個人簡介:李金成,男,湖南邵陽人,中共黨員,工學(xué)博士,教授,博士/碩士生導(dǎo)師。云南省“興滇英才計劃”青年人才、云南省優(yōu)秀青年基金、中科院院長優(yōu)秀獎等稱號獲得者。本科/碩博分別畢業(yè)于中南大學(xué)/中國科學(xué)院金屬研究所,師從碳材料專家成會明院士。隨后在香港科大霍英東研究院(廣州)邵敏華教授及美國華盛頓州立大學(xué)林躍河教授課題組從事博士后研究工作。以第一/通訊作者在J. Am. Chem. Soc.、Angew. Chem. Int. Ed.、Energy Environ. Sci.等國際著名期刊發(fā)表53篇學(xué)術(shù)論文,論文總引用5700多次,H因子39。擔(dān)任Adv. Powder Mater.與Research青年編委、Inorganics期刊的客座編輯及Angew. Chem. Int. Ed.、Adv. Mater.、Adv. Energy Mater.、Adv. Funct. Mater.等期刊審稿人。
研究方向:
[1]功能碳納米材料
[2]氫燃料電池催化劑
[3]鋅-空電池催化劑
[4]電解水催化劑
主要研究項(xiàng)目:
[1]碳納米管薄膜氧還原催化劑及其膜電極的制備與性能研究,國家自然科學(xué)基金面上項(xiàng)目,50萬(主持,在研)
[2]二維孔洞碳基高濃度且暴露金屬單原子催化劑的可控制備及氧還原性能研究,國家自然科學(xué)基金青年項(xiàng)目,30萬(主持,結(jié)題)
[3]三維柔性電極的構(gòu)筑及其在燃料電池中的應(yīng)用,云南省優(yōu)秀青年基金項(xiàng)目,30萬(主持,在研)
[4]兼具高載量金屬單原子和納米顆粒單壁碳納米管膜柔性氧電極的可控制備與催化性能研究,云南省“興滇英才”青年人才項(xiàng)目,80萬(主持,在研)
[5]基于管狀層次孔結(jié)構(gòu)單原子Fe-N-C氧還原催化劑的設(shè)計制備及性能研究,云南省青年基金項(xiàng)目,5萬(主持,結(jié)題)
[6]昆明理工大學(xué)高層次人才引進(jìn)項(xiàng)目,500萬(主持,在研)
[7]燃料電池先進(jìn)催化劑的研制,博士后啟動項(xiàng)目,57萬(主持,結(jié)題)
[8]非貴金屬摻雜碳基燃料電池催化劑的研制,廣州市博士后國際計劃項(xiàng)目,7.8萬(主持,結(jié)題)
[9]第二金屬輔助制備原子分散Fe-N摻雜碳及電催化性能研究,博士后基金面上項(xiàng)目,8萬(主持,結(jié)題)
[10]氧化鈰輔助制備碳基高濃度單原子鐵氧還原催化劑及性能研究,廣東省自然科學(xué)基金面上項(xiàng)目,10萬(主持,結(jié)題)
[11]高比能鋰固態(tài)氧二次電池關(guān)鍵材料及樣品電池研發(fā),廣東省國際科技合作項(xiàng)目課題,50萬(主持,結(jié)題)
部分代表性論文(國際期刊10篇):
[1] Y. Yu, Y. Wang, F. Yang, D. Feng*, M. Yang, P.-F. Xie, Y. Zhu, M. Shao*, Y. Mei,J.-C. Li*, Meso/Microporous Single-Atom Catalysts Featuring Curved Fe-N4Sites Boost the Oxygen Reduction Reaction Activity,Angew. Chem. Int. Ed.64(3) (2025) e202415691.
[2] Z. Xiao, Z. Liu, X. Wu, X. Xiao, Y. Liu, J. Liu, Z. Zheng, W. Yao,J.-C. Li*, G. Zhou*, Artificial Protrusion Architectures Enabling Horizontal-Diffusion Nucleation for Stable Zinc-Based Batteries,J. Am. Chem. Soc.147(35) (2025) 32216-32224.
[3] H.-B. Zhang, Y. Meng, L. Fang, F. Yang, S. Zhu, T. Li, X. Yu, J. Rong*, W. Chen, D. Su, Y. Mei, P.-X. Hou, C. Liu*, M. Shao*,J.-C. Li*, A thermal evaporation-trapping strategy to synthesize flexible and robust oxygen electrocatalysts for rechargeable zinc-air batteries,Energy Environ. Sci.17(23) (2024) 9375-9382.
[4] S. Ding, L. He, L. Fang, Y. Zhu, T. Li, Z. Lyu, D. Du, Y. Lin*,J.-C. Li*, Carbon-Nanotube-Bridging Strategy for Integrating Single Fe Atoms and NiCo Nanoparticles in a Bifunctional Oxygen Electrocatalyst toward High-Efficiency and Long-Life Rechargeable Zinc-Air Batteries,Adv. Energy Mater.12(48) (2022) 2202984.
[5] P.-F. Xie, H. Zhong, L. Fang, Z. Lyu, W.-J. Yu, T. Li, J. Lee, H. Shin, S.P. Beckman, Y. Lin, S. Ding*, I.-D. Kim*,J.-C. Li*, Molecular Fe-N4Moieties Coupled with Atomic Co-N4Sites Toward Improved Oxygen Reduction Performance,Adv. Funct. Mater.34(32) (2024) 2314554.
[6]J.-C. Li*, Y. Meng, L. Zhang, G. Li, Z. Shi, P.-X. Hou, C. Liu*, H.-M. Cheng, M. Shao*, Dual-Phasic Carbon with Co Single Atoms and Nanoparticles as a Bifunctional Oxygen Electrocatalyst for Rechargeable Zn-Air Batteries,Adv. Funct. Mater.31(42) (2021) 2103360.
[7]J.-C. Li, P.-X. Hou, S.-Y. Zhao, C. Liu, D.-M. Tang, M. Cheng, F. Zhang, H.-M. Cheng, A 3D bi-functional porous N-doped carbon microtube sponge electrocatalyst for oxygen reduction and oxygen evolution reactions,Energy Environ. Sci.9(10) (2016) 3079-3084.
[8] S. Ding, J.A. Barr, Q. Shi, Y. Zeng, P. Tieu, Z. Lyu, L. Fang, T. Li, X. Pan, S.P. Beckman, D. Du, H. Lin,J.-C. Li*, G. Wu*, Y. Lin*, Engineering Atomic Single Metal-FeN4Cl Sites with Enhanced Oxygen-Reduction Activity for High-Performance Proton Exchange Membrane Fuel Cells,ACS Nano16(9) (2022) 15165-15174.
[9] L.-H. He, T. Li, H. Hu, P.-F. Xie,J.-C. Li*, Understanding the Three-Shell Coordination Structure-Performance Relationship of Single-Atom Sites for Oxygen Reduction Using Molecular Model Catalysts,ACS Catal.15(15) (2025) 13391-13400.
[10]J.-C. Li, S. Maurya, Y.S. Kim, T. Li, L. Wang, Q. Shi, D. Liu, S. Feng, Y. Lin*, M. Shao*, Stabilizing Single-Atom Iron Electrocatalysts for Oxygen Reduction via Ceria Confining and Trapping,ACS Catal.10(4) (2020) 2452-2458.
部分代表性論文(國產(chǎn)期刊5篇):
[1] J.-X. An, Y. Meng, L. Fang, Z. Lyu, S. Tang, T. Li, C. Liu, H. Shin, J. Lee, S. Ding*, I.-D. Kim*,J.-C. Li*, Surface engineering strategy to synthesize bicomponent carbons for rechargeable zinc-air batteries,Energy Storage Mater.70 (2024) 103520.
[2] H. Hu, Y. Meng, Y. Mei, P.X. Hou*, C. Liu, H.M. Cheng, M. Shao*,J.C. Li*, Bifunctional oxygen electrocatalysts enriched with single Fe atoms and NiFe2O4 nanoparticles for rechargeable zinc-air batteries,Energy Storage Mater.54 (2023) 517-523.
[3] J. Xu, Y. Meng, X. Qiu, H. Zhong, S. Liu, L. Zhang*, J. Zhang, P. Hou, S.P. Beckman, F. Wu, C. Liu*, M. Shao*,J. Li*, Honeycomb-like single-atom catalysts with FeN3Cl sites for high-performance oxygen reduction,Adv. Powder Mater.4(4) (2025) 100298.
[4] H.-B. Zhang, Y. Meng, H. Zhong, L. Zhang, S. Ding, L. Fang, T. Li, Y. Mei, P.-X. Hou, C. Liu*, S.P. Beckman, Y. Lin, H.-M. Cheng,J.-C. Li*, Bulk preparation of free-standing single-iron-atom catalysts directly as the air electrodes for high-performance zinc-air batteries,Carbon Energy5(5) (2023) e289.
[5] J.-X. An, Y. Meng, H.-B. Zhang, Y. Zhu, X. Yu, J. Rong*, P.-X. Hou, C. Liu*, H.-M. Cheng,J.-C. Li*, Three-dimensional interconnected graphene network-based high-performance air electrode for rechargeable zinc-air batteries,SusMat4(3) (2024) e201.
