SENSORS FOR WEARABLE ELECTRONICS

The present disclosure relates to a human body temperature sensor fabricated through inkjet material printer at room temperature in two steps deposition process. The proposed sensor consists of silver based interdigital electrode and carbon black film as sensing elements, which are sensitive towards human body temperature. In various embodiments, the present disclosure has two terminals that provide change in resistance against temperature detection. The change in resistance is directly proportional to the change in temperature i.e. positive temperature coefficient (PTC). Interdigital electrodes (IDE) fingers spacing were optimized for the high sensitivity and linear resistance behavior at a temperature range is recorded. The sensor response is very linear on the human body temperature readings.In embodiments, a polyimide PI substrate in combination with Polydimethylsiloxane (PDMS) encapsulation layer is utilized in the device fabrication. The thermal sensing property of the carbon black film and PI substrate is exploited to detect human body temperature.In embodiments, mass production of the sensor at very low cost can be done with screen printing technique in 3 steps. 1) Patterning of silver IDE, 2) deposition of carbon sensing film, and 3) PDMS encapsulating layer. The proposed sensor can be scaled according to the requirement from μm to cm size.