期刊
FRONTIERS IN CHEMISTRY
卷 9, 期 -, 页码 -出版社
FRONTIERS MEDIA SA
DOI: 10.3389/fchem.2021.539678
关键词
sensor; nanomaterials; fabrication; energy storage; temperature
资金
- National Natural Science Foundation of China [61971049]
- Key Scientific Research Project of Beijing Municipal Commission of Education [KZ202010015024]
- Research and Development Program of Beijing Institute of Graphic Communication [Ec202006]
Flexible temperature sensors play a crucial role in temperature monitoring, with different types developed based on various principles. Various flexible temperature sensors have been studied and optimized for high integration and multifunctionality. This review delves into the structure, materials, fabrication, and performance of flexible temperature sensors, along with discussing typical applications.
Temperature reflects the balance between production and dissipate of heat. Flexible temperature sensors are primary sensors used for temperature monitoring. To obtain real-time and accurate information of temperature, different flexible temperature sensors are developed according to the principle of flexible resistance temperature detector (FRTC), flexible thermocouple, flexible thermistor and flexible thermochromic, showing great potential in energy conversion and storage. In order to obtain high integration and multifunction, various flexible temperature sensors are studied and optimized, including active-matrix flexible temperature sensor, self-powered flexible temperature sensor, self-healing flexible temperature sensor and self-cleaning flexible temperature sensor. This review focuses on the structure, material, fabrication and performance of flexible temperature sensors. Also, some typical applications of flexible temperature sensors are discussed and summarized.
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