P. H. Lin scite author profile

Highly conductive polymer fibers are key components in the design of multifunctional textiles. Measuring the voltage/temperature relationships of these fibers is very challenging due to their very small diameters, making it impossible to rely on classical temperature sensing techniques. These fibers are also so fragile that they cannot withstand any perturbation from external measurement systems. We propose here, a non-contact temperature measurement technique based on fiber Bragg gratings (FBGs). The heat exchange is carefully controlled between the probed fibers and the sensing FBG by promoting radiation and convective heat transfer rather than conduction, which is known to be poorly controlled. We demonstrate our technique on a highly conductive Poly(3,4-ethylenedioxythiophene)/poly(styrenesulfonate) (PEDOT/PSS)-based fiber. A non-phenomenological model of the sensing system based on meaningful physical parameters is validated towards experimental observations. The technique reliably measures the temperature of the polymer fibers when subjected to electrical loading.

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Wireless sensor network for context-aware health and activity monitoring

Marzencki¹,

Hung²,

Lin³

et al. 2010

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A Smart Sensor Node Design for Efficient Communication in ZigBee Wireless Sensor Networks

Lin

Wang

2017

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Effects of Interfacial Exchange Interaction on the Antiferromagnet-Induced Perpendicular Magnetic Anisotropy

Tsai

Lin

Shih

et al. 2016

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P. H. Lin

Crucial role of interlayer distance for antiferromagnet-induced perpendicular magnetic anisotropy

Pinning Effects Induced by Periodic Arrays of Structural Corrugations in Nb Thin Films

Wireless sensor network for context-aware health and activity monitoring

A Smart Sensor Node Design for Efficient Communication in ZigBee Wireless Sensor Networks

Effects of Interfacial Exchange Interaction on the Antiferromagnet-Induced Perpendicular Magnetic Anisotropy

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