A flexible and high-voltage internal tandem supercapacitor based on graphene-based porous materials with ultrahigh energy density

Fan Zhang; Yanhong Lu; Xi Yang; Long Zhang; Tengfei Zhang; Kai Leng; Yingpeng Wu; Yi Huang; Yanfeng Ma; Yongsheng Chen

doi:10.1002/smll.201303240

A flexible and high-voltage internal tandem supercapacitor based on graphene-based porous materials with ultrahigh energy density

Small. 2014 Jun 12;10(11):2285-92. doi: 10.1002/smll.201303240. Epub 2014 Feb 27.

Authors

Fan Zhang¹, Yanhong Lu, Xi Yang, Long Zhang, Tengfei Zhang, Kai Leng, Yingpeng Wu, Yi Huang, Yanfeng Ma, Yongsheng Chen

Affiliation

¹ Key Laboratory of Functional Polymer Materials and Centre of Nanoscale Science and Technology, Institute of Polymer Chemistry, College of Chemistry, Nankai University, 300071, Tianjin, China.

PMID: 24573835
DOI: 10.1002/smll.201303240

Abstract

Pursuing higher working voltage and packaged energy density, an internal tandem supercapacitor has been successfully designed and fabricated based on graphene-based porous carbon hybrid material. Compared with the packaged energy density of 27.2 Wh kgcell (-1) and working voltage of 3.5 V using EMIMBF4 electrolyte for the conventional single-cell supercapacitor, the internal tandem device with the same material achieves a much higher working voltage of 7 V as well as a significantly improved energy density of 36.3 Wh kgcell (-1) (increased by 33%), which is also about 7 times of that of the state-of-art commercial supercapacitors. A flexible internal tandem device is also designed and fabricated and demonstrated similar excellent performance.

Keywords: flexible materials; graphene; high working voltage; internal tandem supercapacitor.

Publication types

Research Support, Non-U.S. Gov't