Newborn 2D materials for flexible energy conversion and storage

LIU Jinxin; CAO Hui; JIANG Bei; XUE Yinghui; FU Lei

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Newborn 2D materials for flexible energy conversion and storage

LIU Jinxin #,CAO Hui,JIANG Bei,XUE Yinghui,FU Lei *

College of Chemistry and Molecular Science, Wuhan University, Wuhan 430072

*Correspondence author

#Submitted by

Subject:

Funding: none

Opened online:21 June 2016

Accepted by: none

Citation: LIU Jinxin,CAO Hui,JIANG Bei.Newborn 2D materials for flexible energy conversion and storage[OL]. [21 June 2016] http://en.paper.edu.cn/en_releasepaper/content/4697002

Newborn two-dimensional materials (NB2DMs) beyond graphene such as transition metal dichalcogenides (TMDs) exhibited excellent optoelectronic and mechanical properties as well as high theoretical specific capacity, which make them become the promising building blocks of flexible energy devices related to energy conversion and storage. Compared to graphene with zero band gap or traditional friable materials such as Si, these NB2DMs are more suitable to construct flexible devices as active layers of optoelectronic devices or as active materials for batteries. The presented review focuses on the recent advances in bendable energy devices based on NB2DMs, including batteries, supercapacitors (SCs), solar cells, photodetectors and nanoerators (NGs). The NB2DMs pave a new way to construct next-generation flexible energy devices with improved performance and we believe that those devices will be seen in our daily life and change our lifestyle in the immediate future.

Keywords:materials chemistry; 2D materials; flexible; energy

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