Tae Gyu Kang scite author profile

A real-time humidity sensor based on a microwave resonator coupled with a poly(3,4-ethylenedioxythiophene) polystyrene sulfonate (PEDOT:PSS) conducting polymer (CP) film is proposed in this paper. The resonator is patterned on a printed circuit board and is excited by electromagnetic field coupling. To enhance the sensitivity of the sensor, the CP film is located in the area with the strongest electric field in the resonator. To investigate the performance, the proposed sensor is placed alongside a reference sensor in a humidity chamber, and humidity is injected at room temperature. The experimental results indicate that the electrical properties of the resonator with the CP film, such as the transmission coefficient (S 21) and resonance frequency, change with the relative humidity (RH). Specifically, as the RH changes from 5% to 80%, S 21 and the resonance frequency change simultaneously. Moreover, the proposed sensor exhibits great repeatability in the middle of the sensing range, which is from 40% to 60% RH. Consequently, our resonator coupled with the CP film can be used as a real-time humidity-sensing device in the microwave range, where various radio-frequency devices are in use.

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A real-time humidity sensor based on a microwave oscillator with conducting polymer PEDOT:PSS film

Kang

Park

Yun

et al. 2019

Sensors and Actuators B: Chemical

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Microwave characterization of conducting polymer PEDOT: PSS film using a microstrip line for humidity sensor application

et al. 2019

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Tae Gyu Kang

Real-time Humidity Sensor Based on Microwave Resonator Coupled with PEDOT:PSS Conducting Polymer Film

A real-time humidity sensor based on a microwave oscillator with conducting polymer PEDOT:PSS film

Microwave characterization of conducting polymer PEDOT: PSS film using a microstrip line for humidity sensor application

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