Robust Fiber-Shaped Flexible Temperature Sensors for Safety Monitoring with Ultrahigh Sensitivity

Author：Lu, Y. F.， Zhang, H. J.， Zhao, Y.， Liu, H. D.， Nie, Z. T.， Xu, F.， Zhu, J. X.， Huang, W.

Journal：Advanced Materials

DOI:  10.1002/adma.202310613

Keywords: flexible electronics， flexible temperature sensor, nickel oxide, temperature monitoring system, wearable electronics, dynamics, devices, array, Chemistry, Science & Technology - Other Topics, Materials Science, Physics

Abstract: 

Flexible temperature sensors capable of detecting and transmitting temperature data from the human body, environment, and electronic devices hold significant potential for applications in electronic skins, human-machine interactions, and disaster prevention systems. Nonetheless, fabricating flexible temperature sensors with exceptional sensing performance remains a formidable task, primarily due to the intricate process of constructing an intrinsically flexible sensing element with high sensitivity. In this study, a facile in situ two-step synthetic method is introduced for fabricating flexible fiber-shaped NiO/carbon nanotube fiber (CNTF) composites. The resulting NiO/CNTF flexible temperature sensors demonstrate outstanding deformability and temperature sensing characteristics, encompassing a broad working range (-15 to 60 degrees C) and high sensitivity (maximum TCR of -20.2% degrees C-1 and B value of 3332 K). Importantly, the mechanical and thermal behaviors of the sensor in various application conditions are thoroughly examined using finite element analysis simulations. Moreover, the temperature sensors can effectively capture diverse thermal signals in wearable applications. Notably, a temperature monitoring and warning system is developed to prevent fire accidents resulting from abnormal thermal runaway in electronic devices. Fiber-shaped flexible temperature sensors with outstanding deformability and temperature sensing characteristics (broad working range and high sensitivity) are achieved through a two-step synthetic method. The temperature sensors can effectively capture diverse thermal signals in various applications. Notably, a temperature monitoring and warning system is developed to prevent fire accidents resulting from abnormal thermal runaway in electronic devices. image