High-performance ionic liquid-based nanocomposite polymer electrolytes with anisotropic ionic conductivity prepared by coupling liquid crystal self-templating with unidirectional freezing
writer:Hongzan Song,* Ningning Zhao, Weichao Qin, Bing Duan, Xiaoya Ding, Xu Wen, Peng Qiu and Xinwu Ba*
keywords:nanocomposite polymer electrolytes, ionic liquid
source:期刊
specific source:J. Mater. Chem. A, 2015, 3, 2128
Issue time:2015年
We report a facile and versatile assembly technique that combines a unidirectional freezing method, a liquid
crystal self-templating approach and a vacuum degassing method to prepare high-performance ionic liquid
(ILs)-based nanocomposite polymer electrolytes (NCPE) with highly ordered honeycomb-like microporous
poly(vinyl alcohol) (PVA) scaffolds containing self-organized halloysite nanotubes (HNTs). Regarding its
conductivity property, the ILs-based NCPE exhibits significant anisotropy, and its ionic conductivity can
reach 5.2 � 10�3 S cm�1 at 30 �C in the direction parallel to the freezing, which is more than 500 times
higher than that obtained the direction perpendicular to the freezing, which is 9.6 � 10�6 S cm�1 at
30 �C. More importantly, as a consequence of the compact self-assembly of HNTs into structured
composites, the obtained ILs-based NCPE, which presents extremely thin channel walls (60–100 nm),
can exhibit a combination of very high compression modulus of 46.5 MPa and high temperature
robustness, whereas the dynamic modulus can reach 107 Pa at 200 �C. This material design has great
potential for the development of high-performance polymer electrolytes.