Ultra-Sensitive Flexible Temperature Sensors Based on Thermal-Mediated Ions Migration Dynamics in Asymmetrical Polymer Bilayers

作者: Li Fan, Lin Xiuzhu, Xue Hua, Wang Juan, Li Juan, Fei Teng, Liu Sen, Zhou Tingting, Zhao Hongran, Zhang Tong
期刊: ACS Nano
卷号: 2024, 18, 7521–7531
接收日期: 2024-02-07 09:47:30
摘要 Abstract

Abstract

Accurately acquiring crucial data on the ambient surroundings and physiological processes delivered via subtle temperature fluctuation is vital for advancing artificial intelligence and personal healthcare techniques but is still challenging. Here, we introduce an electrically induced cation injection mechanism based on thermal-mediated ion migration dynamics in an asymmetrical polymer bilayer (APB) composed of nonionic polymer and polyelectrolyte layers, enabling the development of ultrasensitive flexible temperature sensors. The resulting optimized sensor achieves ultrahigh sensitivity, with a thermal index surpassing 10,000 K–1, which allows identifying temperature differences as small as 10 mK with a sensitivity that exceeds 1.5 mK. The mechanism also enables APB sensors to possess good insensitivity to various mechanical deformations─features essential for practical applications. As a proof of concept, we demonstrate the potential impact of APB sensors in various conceptual applications, such as mental tension evaluation, biomimetic thermal tactile, and thermal radiation detection.

KEYWORDS: biomimetic ionic skinsthermal sensorsasymmetrical polymer bilayersultrasensitive detectionwearable electronics