Effect of glycerol on the mechanical and temperature-sensing properties of pectin films
Journal
APL (Applied Physics Letters)
Date
2019.11.09
Abstract
Temperature-sensitive films embedded in electronic skins (e-skins) can provide temperature feedback to robots, high-tech prostheses and wearable devices for health care monitoring. Pectin-based films have shown a temperature response at least two orders of magnitude higher than previously reported temperature-sensing materials. However, they are not streatchable and tear easily, which limit their applications as e-skins that require repetitive bending and mechanical stresses. Here, we show how the addition of glycerol as plasticizer in the fabrication of pectin-based films improves their mechanical properties. We report how the enhancement of the mechanical performance is accompanied by a decrease of the temperature responsivity. Through thermogravimetric analysis, we show that this reduction in responsivity can be associated with water retention due to the addition of the plasticizer. The link between water content and temperature response demonstrates that a dehydrated status of pectin is crucial to record its high temperature responsivity. Combining electrical and thermal characterizations with tensile strength test, we estimate the optimal concentration of glycerol for improving the mechanical properties, without compromising the temperature response of the pectin films.