Capacitive Humidity Sensor Based on Carbon Black/Polyimide Composites

A novel capacitive humidity sensor based on carbon black/polyimide composites is presented in this paper. The details of the fabrication, sensor characteristics, and effect of the carbon black additive are described. It was confirmed that the polyimide composite filled with a tiny amount of carbon black was suitable for a humidity sensing dielectric. The humidity sensors with three different dielectrics, which were pure polyimide, 0.01 wt% carbon black/polyimide, and 0.05 wt% carbon black/polyimide, were fabricated by a micro-electro-mechanical-system (MEMS) process. As the amount of the carbon black additive increased, the sensitivity of the humidity sensor increased. The humidity sensor with 0.05 wt% of carbon black had a much higher sensitivity of 15.21% (20-80% RH, 0.2535%/% RH) than that of the sensor with pure polyimide, which was 9.73% (0.1622%/% RH). The addition of carbon black also led to an enhancement in the hysteresis and response speed. The hysteresis of the humidity sensor decreased from 2.17 to 1.80% when increasing the amount of the carbon black additive. The response speed of the humidity sensor with 0.05 wt% of carbon black was measured to be similar to 10% faster than that of the sensor with pure polyimide. The long-term stability of the humidity sensors was demonstrated as well.

Automated summary

This paper presents a novel capacitive humidity sensor based on carbon black/polyimide composites. The addition of a small amount of carbon black into the polyimide composite was found to be suitable for humidity sensing applications, with increased sensitivity. The inclusion of carbon black also resulted in improvements in hysteresis and response speed of the humidity sensor.