E-textile based wearable thermometer from WS2-quantum dots

We report here the successful operation of WS2-QD/RGO hybrid temperature sensor, which performs instant measurement like thermometer in a wide temperature range: 77-398 K, in both static- and instant mode. All this was possible by embedding WS2-QDs on electrically conducting RGO layer, synthesized on cotton textile fabric. The device is simple, scalable, flexible and cost-effective. Successful trial to monitor human body temperature is conducted with fast response- and recovery time similar to 0.60 and 11.3 s with an exceptional resolution similar to 0.06 K. Crucial parameters such as temperature coefficient of resistance (TCR) and thermal hysteresis (H (th)) were theoretically analyzed to understand the intricate mechanism behind the working of a temperature sensor; temperature sensing data at both high- and low temperatures are outstanding as well as competitive. To mention, a few of these parameters are found comparable and even superior to some of the devices as reported. This sensor device proved its flexibility and stability under various in situ mechanical deformation tests, showing its promising potential for future generation wearable health monitoring devices. To the best of our knowledge, this is the first report on WS2 in general, and WS2-QDs, in specific, based temperature sensing device and its operational demonstration as of now.

Automated summary

The WS2-QD/RGO hybrid temperature sensor demonstrated excellent performance in a wide temperature range and successfully monitored human body temperature. The device is simple, flexible, cost-effective, with parameters comparable or superior to existing devices, showing promising potential for future wearable health monitoring devices.