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Highly Conductive MXene Film Actuator Based on Moisture Gradients
Author(s) -
Wang Jingfeng,
Liu Yuyan,
Cheng Zhongjun,
Xie Zhimin,
Yin Liang,
Wang Wu,
Song Yingbin,
Zhang Haiyang,
Wang Youshan,
Fan Zhimin
Publication year - 2020
Publication title -
angewandte chemie
Language(s) - English
Resource type - Journals
eISSN - 1521-3757
pISSN - 0044-8249
DOI - 10.1002/ange.202003737
Subject(s) - materials science , actuator , deformation (meteorology) , composite material , electrical conductor , electrical resistivity and conductivity , conductivity , moisture , relative humidity , bending , bilayer , smart material , optoelectronics , electrical engineering , membrane , chemistry , physics , biochemistry , thermodynamics , engineering
MXene (Ti 3 C 2 T x ) is a new 2D material with both hydrophilicity and high electrical conductivity, and it has shown promise in smart electronic devices. Reported herein is a homogeneous MXene film actuator with high electrical conductivity triggered by moisture gradients. The actuator is highly sensitive to moisture and undergoes deformation, with the maximum bending angle as high as 155° at a relative humidity difference of 65 %. Several analysis methods show that the humidity drive and large deformation of the MXene film occur in situ by asymmetric expansion of the bilayer structure. The combination of deformation and electrical conductivity makes this film applicable to flexible excavators, electrical switches, and other fields, applications that are difficult to achieve directly by using other 2D materials. More importantly, this work further expands the new application range of MXene materials and provides new opportunities for building the next generation of high‐conductivity smart actuators.