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| Motta, Antonella |
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| Azevedo, Nuno Monteiro |
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De Souza Junior, Paulo
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document
A step closer to 3D-Microbatteries for sensors: integrating polymer electrolytes
Abstract
Today’s sensor technology is undergoing a phase of miniaturisation to suit the requirements of many applications. These include, amongst others, medical devices and environmental monitoring. In many instances it is desirable for miniaturised sensors to operate wirelessly and autonomously, requiring a mountable and rechargeable power source of very small dimensions.Current battery technology is not able to meet the demands of sophisticated miniaturised sensor devices. This project aims to develop a novel 3D-structured microbattery to power such miniaturised sensor devices. Here we present our approach to assemble a 3D-structured device with a particular focus on the incorporation of an ion conducting polymer film which functions as the electrolyte as well as a separator between electrodes. Notably, the polymer film is a ternary composite of polymer matrix, an ionic plasticiser, and a lithium salt. The effectiveness of the polymer to perform these functions was determined from electrochemical data.