Issue 41, 2021

A very mechanically strong and stretchable liquid-free double-network ionic conductor

Abstract

Liquid-free ionic conductors are very desirable for flexible electronics, because hydrogels and ionic liquid-based ionogels suffer from water evaporation and ionic liquid leakage, respectively. However, the development of liquid-free ionic conductors with both high mechanical strength and stretchability remains challenging. In this work, based on the design concept of a double-network, we first report a series of very mechanically strong and tough liquid-free double-network ionic conductors (LFDNICs), consisting entirely of 1st stretchable poly(AA–ChCl) type supramolecular deep eutectic polymer networks and 2nd brittle polyvinylpyrrolidone (PVP) networks. One of these LFDNICs shows outstanding mechanical performance, with tensile strength, strain at break, and toughness up to 71.3 MPa, 671%, and 268 MJ m−3, respectively. In particular, the LFDNIC can endure puncture and successfully elevate a 10 kg weight (12 500 times its own weight). In addition, the LFDNIC also exhibits promising ionic conductivity (3.1 × 10−4 S m−1), favorable biocompatibility (cell viability up to 97.5%), optimum self-healing properties (electrical healing efficiency of 98% within 0.30 s), and adequate transparency (92% in the visible range). Due to their practical features and exceedingly simple preparation process, we believe that LFDNICs will not only provide an innovative prospect for the development of mechanically-strong ionic conductors, but can also be further researched and used in the fields of advanced sensors and flexible electronic devices.

Graphical abstract: A very mechanically strong and stretchable liquid-free double-network ionic conductor

Supplementary files

Article information

Article type
Paper
Submitted
08 Сер 2021
Accepted
08 Жов 2021
First published
11 Жов 2021

J. Mater. Chem. A, 2021,9, 23714-23721

A very mechanically strong and stretchable liquid-free double-network ionic conductor

K. Zhao, K. Zhang, R. Li, P. Sang, H. Hu and M. He, J. Mater. Chem. A, 2021, 9, 23714 DOI: 10.1039/D1TA06724A

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