Printed Temperature Sensor Based on Graphene Oxide/PEDOT:PSS

Soni, M. , Bhattacharjee, M., Manjakkal, L. and Dahiya, R. (2019) Printed Temperature Sensor Based on Graphene Oxide/PEDOT:PSS. In: 2019 IEEE International Conference on Flexible and Printable Sensors and Systems (FLEPS), Glasgow, UK, 08-10 Jul 2019, ISBN 9781538693049 (doi: 10.1109/FLEPS.2019.8792268)

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Abstract

Temperature is an important physical parameter which need to be monitored for various applications ranging from health monitoring to robotics [1] , [2]. In humans, accurate measurement of the variations in the skin temperature is utilized for investigation of homeostasis, physical activities, cardiovascular health and several other health diagnostics methods [1] - [5]. For robotics, the integrated temperature sensing can help in distinguishing the hot and cold objects. Among a variety of temperature sensors (e.g. thermocouple, mercury thermometer etc.) the resistive method based temperature detection is widely used due to its rapid response, stability and accuracy [4], [6]. Various materials (e.g. semiconductors, metals, graphite , metal oxides and ceramics etc.) have been used to develop the temperature sensors [7] - [11]. However, owing to the complex processing steps along with the lack of flexibility, many times it is difficult to integrate these sensors on surfaces that can confirm to curvy body parts of a robot or prosthetic limb. In this context, printing technologies with simplified processing steps are aimed to provide low cost route for flexible/bendable sensors [12] - [15].

Item Type:Conference Proceedings
Additional Information:Also funded by the European Commission through North West Centre for Advanced Manufacturing (H2020-Intereg-IVA5055).
Status:Published
Refereed:Yes
Glasgow Author(s) Enlighten ID:Bhattacharjee, Mr Mitradip and Soni, Mr Mahesh and Dahiya, Professor Ravinder and Manjakkal, Dr Libu
Authors: Soni, M., Bhattacharjee, M., Manjakkal, L., and Dahiya, R.
College/School:College of Science and Engineering > School of Engineering > Electronics and Nanoscale Engineering
ISBN:9781538693049
Copyright Holders:Copyright © 2019 IEEE
Publisher Policy:Reproduced in accordance with the copyright policy of the publisher

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Project CodeAward NoProject NamePrincipal InvestigatorFunder's NameFunder RefLead Dept
301728Engineering Fellowships for Growth: Printed Tactile SKINRavinder DahiyaEngineering and Physical Sciences Research Council (EPSRC)EP/R029644/1ENG - Electronics & Nanoscale Engineering
170185Engineering Fellowships for Growth: Printed Tactile SKINRavinder DahiyaEngineering and Physical Sciences Research Council (EPSRC)EP/M002527/1ENG - Electronics & Nanoscale Engineering