Flexible, transparent ion-conducting membranes from two-dimensional nanoclays of intrinsic conductivity

Li Cao; Hong Wu; Xueyi He; Haobo Geng; Runnan Zhang; Ming Qiu; Pengfei Yang; Benbing Shi; Niaz Ali Khan; Zhongyi Jiang

doi:10.1039/c9ta09140h

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Flexible, transparent ion-conducting membranes from two-dimensional nanoclays of intrinsic conductivity

Journal article

Peer reviewed

Flexible, transparent ion-conducting membranes from two-dimensional nanoclays of intrinsic conductivity

Li Cao, Hong Wu, Xueyi He, Haobo Geng, Runnan Zhang, Ming Qiu, Pengfei Yang, Benbing Shi, Niaz Ali Khan and Zhongyi Jiang

Journal of materials chemistry. A, Materials for energy and sustainability, Vol.7(44), pp.25657-25664

2019

DOI: https://doi.org/10.1039/c9ta09140h

Abstract

Chemistry

Chemistry, Physical

Energy & Fuels

Materials Science

Materials Science, Multidisciplinary

Physical Sciences

Science & Technology

Technology

The recent boom in human-machine interaction has triggered a significant demand for flexible and transparent ionotronics. State-of-the-art ion conductors are built by embedding electrolytes in a transparent gel polymer to form an ion-conducting composite, named ion conductive hydrogels or ionogels. Herein, we demonstrate an intrinsic ion-conducting membrane with ultrahigh ion conductivity, flexibility and transparency based on two-dimensional nanoclays of intrinsic conductivity (NICs). The inherently charged and ordered laminar microstructure exhibits an ultrahigh ion conductivity of 0.45 S cm(-1) at 80 degrees C without external electrolytes, which is 100-1000 times higher than that of state-of-the-art ion-conducting composites. The NICs membranes also exhibit superior stability against harsh conditions including organic solvents, high temperature and prolonged dehydration-hydration cycles. We further demonstrate a NICs touch panel that can realize real-time, human-machine communication by drawing and typing. The nanoclays with intrinsic conductivity may open an avenue to electrolyte-free transparent and flexible ionotronics.

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Title: Flexible, transparent ion-conducting membranes from two-dimensional nanoclays of intrinsic conductivity
Creators - without role: Li Cao - Tianjin University
Hong Wu - Tianjin University
Xueyi He - Tianjin University
Haobo Geng - Tianjin University
Runnan Zhang - Tianjin University
Ming Qiu - Tianjin University
Pengfei Yang - Tianjin University
Benbing Shi - Tianjin University
Niaz Ali Khan - Tianjin University
Zhongyi Jiang - Tianjin University
Publication Details: Journal of materials chemistry. A, Materials for energy and sustainability, Vol.7(44), pp.25657-25664
Publisher: Royal Soc Chemistry
Number of pages: 8
Grant note: 2017YFB0603400 / National Key R&D Program of China 21621004; 21878215; 21576189; 21490583 / National Natural Science Foundation of China; National Natural Science Foundation of China (NSFC) 21125627 / National Science Fund for Distinguished Young Scholars; National Natural Science Foundation of China (NSFC) 16JCZDJC36500 / Natural Science Foundation of Tianjin
Identifiers: 9942582208331
Academic Unit: King Abdullah University of Science & Technology
Language: English
Resource Type: Journal article