Dr. Jonathan Rivnay joins us from Northwestern University to discuss polymer use in bioelectronics. To attend his talk, stop by Maryland Hall Room 110 on Wednesday, March 13th at 3pm.
Abstract: Polymer Mixed conductors for applications in bioelectronics
Direct measurement and stimulation of ionic, biomolecular, cellular, and tissue-scale activity is a staple of bioelectronic diagnosis and/or therapy. Such bi-directional interfacing can be enhanced by a unique set of properties imparted by organic electronic materials. These materials, based on conjugated polymers, can be adapted for use in biological settings and show significant molecular-level interaction with their local environment, readily swell, and provide soft, seamless mechanical matching with tissue. At the same time, their swelling and mixed conduction allows for enhanced ionic-electronic coupling for transduction of biosignals. Structure-transport properties allow us to better understand and design these active materials, providing further insight into the role of molecular design and processing on ionic and electronic transport, charging phenomena, and stability for the development of high performance devices. Such properties stress the importance of bulk transport processes, and serve to enable new capabilities in bioelectronics, I will show that electrochemical devices based on these materials can efficiently amplify local bio-signals and can be engineered for non-volatility or spiking behavior in order to mimic basic neural function. These developments highlight the role of materials design for addressing critical needs in bio-electronic interfacing.