High Conductive Two-Dimensional Covalent Organic Framework for Lithium Storage with Large Capacity

Hui Yang; Shengliang Zhang; Li-Heng Han; Zhou Zhang; Zheng Xue; Juan Gao; Yongjun Li; Changshui Huang; Yuanping Yi; Huibiao Liu; Yuliang Li

doi:10.1021/acsami.5b12370

High Conductive Two-Dimensional Covalent Organic Framework for Lithium Storage with Large Capacity

Hui Yang(Beijing National Laboratory for Molecular Sciences), Shengliang Zhang(University of Chinese Academy of Sciences), Li-Heng Han(Beijing National Laboratory for Molecular Sciences), Zhou Zhang(Chinese Academy of Sciences), Zheng Xue(Chinese Academy of Sciences), Juan Gao(University of Chinese Academy of Sciences), Yongjun Li(Beijing National Laboratory for Molecular Sciences), Changshui Huang(Chinese Academy of Sciences), Yuanping Yi(Beijing National Laboratory for Molecular Sciences), Huibiao Liu(Chinese Academy of Sciences), Yuliang Li(Chinese Academy of Sciences)

ACS Applied Materials & Interfaces

February 3, 2016

10.1021/acsami.5b12370

Cited by 305

Abstract

A high conductive 2D COF polyporphyrin (TThPP) linked by 4-thiophenephenyl groups was synthesized through an in situ chemical oxidative polymerization on the surface of copper foil. The TThPP films were used as the anode of lithium-ion battery, which exhibited high specific capacities, excellent rate performances, and long cycle lives due to the alignment of 2D polyporphyrin nanosheets, and they (i) can highly efficiently adsorb Li atoms, (ii) have short-ended paths for the fast lithium ion diffusion, and (iii) open nanopores holding electrolyte. The reversible capacity is up to 666 mAh/g. This is the first example of an organic 2D COF for an anode of lithium-ion battery and represents an important step toward the use of COFs in the next-generation high-performance lithium-ion battery.

Related Papers

No related papers found

Powered by citation graph analysis