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Molecular Ferroelectric‐Based Flexible Sensors Exhibiting Supersensitivity and Multimodal Capability for Detection

Wenru Li, Changhao Li, Guangzu Zhang, Linkai Li, Kai Huang, Xuetian Gong, Chao Zhang, Zheng An, Yanxue Tang, Zhengzhi Wang, Qiaoling Tong, Wen Dong, Shenglin Jiang, Sulin Zhang, Qing Wang

2021Advanced Materials70 citationsDOI

Abstract

Abstract Although excellent dielectric, piezoelectric, and pyroelectric properties matched with or even surpassing those of ferroelectric ceramics have been recently discovered in molecular ferroelectrics, their successful applications in devices are scarce. The fracture proneness of molecular ferroelectrics under mechanical loading precludes their applications as flexible sensors in bulk crystalline form. Here, self‐powered flexible mechanical sensors prepared from the facile deposition of molecular ferroelectric [C(NH 2 ) 3 ]ClO 4 onto a porous polyurethane (PU) matrix are reported. [C(NH 2 ) 3 ]ClO 4 ‐PU is capable of detecting pressure of 3 Pa and strain of 1% that are hardly accessible by the state‐of‐the‐art piezoelectric, triboelectric, and piezoresistive sensors, and presents the ability of sensing multimodal mechanical forces including compression, stretching, bending, shearing, and twisting with high cyclic stability. This scaling analysis corroborated with computational modeling provides detailed insights into the electro‐mechanical coupling and establishes rules of engineering design and optimization for the hybrid sponges. Demonstrative applications of the [C(NH 2 ) 3 ]ClO 4 ‐PU array suggest potential uses in interactive electronics and robotic systems.

Topics & Concepts

Materials sciencePiezoelectricityFerroelectricityFerroelectric polymersPyroelectricityNanotechnologyFlexible electronicsDielectricComposite materialOptoelectronicsAdvanced Sensor and Energy Harvesting MaterialsConducting polymers and applicationsDielectric materials and actuators
Molecular Ferroelectric‐Based Flexible Sensors Exhibiting Supersensitivity and Multimodal Capability for Detection | Litcius