陈立锋


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:

0551-63600772

电  邮:

主  页:




/uploads/image/2019/01/08/cfe1cd36d60b7f1c06e6497144a0d8cc.jpg

 教育与科研经历

2022年02月至今

中国科学技术大学特任教授

2020年01月-2022年01月

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


/uploads/image/2019/01/08/cfe1cd36d60b7f1c06e6497144a0d8cc.jpg

 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


/uploads/image/2019/01/08/cfe1cd36d60b7f1c06e6497144a0d8cc.jpg

 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.


陈立锋-皇冠体育平台

网站地图