陈立锋


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姓  名:

陈立锋

地  址:

中国科学技术大学热科学和能源工程系

邮  编:

230026

电  话:

0551-63601653

电  邮:

CHENLF@ustc.edu.cn

主  页:

https://www.x-mol.com/groups/CHEN_Lifeng




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 教育与科研经历

2020年01月至今

中国科学技术大学特任研究员

2019年05月-2019年12月

新加坡南洋理工大学博士后研究员

2017年04月-2019年04月

日本产业技术综合研究所JSPS特别研究员

2016年03月-2017年03月

新加坡南洋理工大学博士后研究员

2013年11月-2016年03月

中国科学技术大学博士后研究员

2008年09月-2013年11月

中国科学技术大学硕博连读


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 目前研究方向

1.

生物质/碳基能量存储与转换电极材料的设计及器件构筑

2.

柔性能量存储与转换电极材料的设计及器件构筑


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 代表性论文

1.

L.F. Chen; C.C. Hou; L. Zou; M. Kitta; Q. Xu*; Uniformly Bimetal-Decorated Holey Carbon Nanorods Derived from Metal-Organic Framework for Efficient Hydrogen Evolution, Sci. Bull. 2021, 66 (2), 170-178.

2.

S. Liu; C. Zhang; Y. Sun; Q. Chen; L. He; K. Zhang*; J. Zhang; B Liu*; L.F. Chen*; Design of Metal-Organic Framework-Based Photocatalysts for Hydrogen Generation, Coord. Chem. Rev., 2020, 413, 213266.

3.

K. Zhang; L. Wang; W. Cai; L.F. Chen*; D. Wang; Y. Chen; H. Pan; L. Wang*; Y. Qian*, Pyridinic and Pyrrolic Nitrogen-Enriched Carbon as a Polysulfide Blocker for High-Performance Lithium-Sulfur Batteries. Inorg. Chem. Front. 2019, 6 (4), 955-960.

4.

L.F. Chen; Q. Xu*, Converting MOFs into Amination Catalysts. Science 2017, 358 (6361), 304-305, Perspective.

5.

L.F. Chen; Y. Lu*; L. Yu; X. W. Lou*, Designed Formation of Hollow Particle-Based Nitrogen-Doped Carbon Nanofibers for High-Performance Supercapacitors. Energy Environ. Sci. 2017, 10 (34), 1777-1783.

6.

L.F. Chen; Y. Feng; H.W. Liang; Z. Y. Wu; S.H. Yu*, Macroscopic-Scale Three-Dimensional Carbon Nanofiber Architectures for Electrochemical Energy Storage Devices. Adv. Energy Mater. 2017, 7 (23), 1700826.

7.

L.F. Chen†; S.X. Ma†; S. Lu; Y. Feng; J. Zhang; S. Xin; S.H. Yu*, Biotemplated Synthesis of Three-Dimensional Porous MnO/C-N Nanocomposites from Renewable Rapeseed Pollen: An Anode Material for Lithium-Ion Batteries. Nano Res. 2017, 10 (1), 1-11.

8.

L.F. Chen†; Z.Y. Yu†; J.J. Wang†; Q.X. Li; Z.Q. Tan; Y.W. Zhu; S.H. Yu*, Metal-Like Fluorine-Doped beta-FeOOH Nanorods Grown on Carbon Cloth for Scalable High-Performance Supercapacitors. Nano Energy 2015, 11, 119-128.

9.

L.F. Chen†; Z.H. Huang†; H.W. Liang; H.L. Gao; S.H. Yu*, Three-Dimensional Heteroatom-Doped Carbon Nanofiber Networks Derived from Bacterial Cellulose for Supercapacitors. Adv. Funct. Mater. 2014, 24 (32), 5104-5111.

10.

L.F. Chen; Z.Y. Yu; X. Ma; Z.Y. Li; S.H. Yu*, In Situ Hydrothermal Growth of Ferric Oxides on Carbon Cloth for Low-Cost and Scalable High-Energy-Density Supercapacitors. Nano Energy 2014, 9, 345-354.

11.

L.F. Chen; Z.H. Huang; H.W. Liang; Q.F. Guan; S.H. Yu*, Bacterial-Cellulose-Derived Carbon Nanofiber@MnO2 and Nitrogen-Doped Carbon Nanofiber Electrode Materials: An Asymmetric Supercapacitor with High Energy and Power Density. Adv. Mater. 2013, 25 (8), 4746-4752.

12.

L.F. Chen; Z.H. Huang; H.W. Liang; W.T. Yao; Z.Y. Yu; S.H. Yu*, Flexible All-Solid-State High-Power Supercapacitor Fabricated with Nitrogen-Doped Carbon Nanofiber Electrode Material Derived from Bacterial Cellulose. Energy Environ. Sci. 2013, 6 (11), 3331-3338.

13.

L.F. Chen; X.D. Zhang; H.W. Liang; M.G. Kong; Q.F. Guan; P. Chen; S.H. Yu*, Synthesis of Nitrogen-Doped Porous Carbon Nanofibers as an Efficient Electrode Material for Supercapacitors. ACS Nano 2012, 6 (8), 7092-7102.


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