Li-Feng CHEN
National outstanding youth fund winner
Email:a33457d40e6872f3bc2f328c940c018c19be06a83cff14b1a4cffe3734dd946807d205c7aa255bdf2c180eceef3c2acff30e028790a7d304ac47ebac0deb2a7f8955a3dd77d4d633f7f8490bad73916e9e88f280effb1d5bb963127d2456554c1d57d885c930fbc2e382ef2e5019d43f893a11cb402aa7cff1d940f429570d5d
Office Tel:2a1f78bf2e94848cd4d88f7830d91b444159b6631a9caea66f829df6fcaa8b1b6ff4a7cc783a6ed3b831b24cef0c75d1bc0e2621be997687d673b60b75906c8b4351105c894ef76f4e52155272906278c92265b91f16ddb5793a4b8f04ae16bd3c52b87350f5e7e67d0e1756492fae74cab89ab253e30c713d6cf30da56b8cc3
Address:7334ac72353c35c0c057b94beabcad2c1646c5194f26101c3f07955671b029056c59cdeaa2c8cfab4be341929ce82bcfc2538d5fcc1672ce9adfc6026f6ef30c49c9e6f76f5a30d64db2fa24d961f0cb4f0760e1cd304f4bcccf9ed16f13fc6fb96ead9660e89508168e74fcc1599076953d0af48941696857bd53aa094370d0
Paper Publications
Pyridinic and Pyrrolic Nitrogen-Enriched Carbon as a Polysulfide Blocker for High-Performance Lithium-Sulfur Batteries, K. Zhang; L. Wang, W. Cai, L. F. Chen*, D. Wang, Y. Chen, H. Pan, L. Wang*, Y. Qian*.Inorg. Chem. Front.,2019,6(4):955-960.
Metal-organic frameworks and their composites: synthesis and electrochemical applications, F. Y. Yi, R. Zhang, H. Wang, L. F. Chen, L. Han, H. L. Jiang*, Q. Xu*.Small Methods,2017,1(11):1700187.
Converting MOFs into Amination Catalysts. L. F. Chen, Q. Xu*.Science,2017,358(6361):304-305.
Designed Formation of Hollow Particle-Based Nitrogen-Doped Carbon Nanofibers for High-Performance Supercapacitors. L. F. Chen, Y. Lu, L. Yu, X. W. Lou*.Energy Environ. Sci.,2017,10(34):1777-1783.
Biotemplated Synthesis of Three-Dimensional Porous MnO/C-N Nanocomposites from Renewable Rapeseed Pollen: An Anode Material for Lithium-Ion Batteries. L. F. Chen†, S. X. Ma†, S. Lu, Y. Feng, J. Zhang, S. Xin, S. H. Yu*.Nano Res.,2017,10(1):1-11.
Macroscopic-Scale Three-Dimensional Carbon Nanofiber Architectures for Electrochemical Energy Storage Devices. L. F. Chen, Y. Feng, H. W. Liang, Z. Y. Wu, S. H. Yu*.Adv. Energy Mater.,2017,7(23):1700826.
Free standing three-dimensional nitrogen-doped carbon nanowire array for high-performance supercapacitors, G. Xu, H. Dou*, X. Geng, J. Han, L. F. Chen, H. Zhu*.Chem. Eng. J.,2017,308(15):222-228.
Bacterial cellulose: A robust platform for design of three dimensional carbon-based functional nanomaterials, Z. Y. Wu, H. W. Liang, L. F. Chen, B. C. Hu, S. H. Yu*.Acc. Chem. Res.,2015,49(1):96-105.
Bacterial cellulose derived nitrogen-doped carbon nanofiber aerogel: An efficient metal-free oxygen reduction electrocatalyst for zinc-air battery H. W. Liang†, Z. Y. Wu†, L. F. Chen, C. Li, S. H. Yu*.Nano Energy,2015,11:366-376.
Metal-Like Fluorine-Doped beta-FeOOH Nanorods Grown on Carbon Cloth for Scalable High-Performance Supercapacitors. L. F. Chen†, Z. Y. Yu†, J. J. Wang†, Q. X. Li, Z. Q. Tan, Y. W. Zhu, S. H. Yu*.Nano Energy,2015,11:119-128.
Iron carbide nanoparticles encapsulated in mesoporous Fe‐N‐doped carbon nanofibers for efficient electrocatalysis, Z. Y. Wu, X. X. Xu, B. C. Hu, H. W. Liang, Y. Lin, L. F. Chen, S. H. Yu*.Angew. Chem. Int. Ed.,2015,54(28):8179-8183.
Free-standing boron and oxygen co-doped carbon nanofiber films for large volumetric capacitance and high rate capability supercapacitors Z. Y. Yu, L. F. Chen, L. T. Song, Y. W. Zhu, H. X. Ji, S. H. Yu*.Nano Energy,2015,15:235-243.
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