Graphene Fiber-Based Strain-Insensitive Wearable Temperature Sensor

A strain-insensitive wearable temperature sensor based on graphene fibers is proposed to solve the temperature measurement strain interference of wearable temperature sensors. The stress, strain, and conduction characteristics of the sensor are discussed based on finite element simulations and the p...

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Veröffentlicht in:	IEEE sensors letters 2020-10, Vol.4 (10), p.1-4
Hauptverfasser:	Yu, Mingxin, Yu, Guangbin, Dai, Bing
Format:	Artikel
Sprache:	eng
Schlagworte:	antistrain interference Graphene graphene fiber Mathematical analysis Optical fiber sensors Resistance Sensors Skin temperature Temperature Temperature measurement Temperature sensors Tensile strain Thermal sensors Thermometers Wearable sensors Wearable technology wearable temperature sensor
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creator	Yu, Mingxin Yu, Guangbin Dai, Bing
description	A strain-insensitive wearable temperature sensor based on graphene fibers is proposed to solve the temperature measurement strain interference of wearable temperature sensors. The stress, strain, and conduction characteristics of the sensor are discussed based on finite element simulations and the principle of graphene conduction. The wearable temperature sensor showed excellent negative temperature coefficient characteristics. The responsivity of the sensor is 0.85% °C −1 , and the sensing resolution is 0.1 °C. The sensor shows good antiinterference below a tensile strain of 90% or a curved surface with a curvature of 0.5. When the sensor is attached to the human body, it reliably detects skin temperature changes at different curved surfaces.
doi_str_mv	10.1109/LSENS.2020.3026671
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subjects	antistrain interference Graphene graphene fiber Mathematical analysis Optical fiber sensors Resistance Sensors Skin temperature Temperature Temperature measurement Temperature sensors Tensile strain Thermal sensors Thermometers Wearable sensors Wearable technology wearable temperature sensor
title	Graphene Fiber-Based Strain-Insensitive Wearable Temperature Sensor
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