|![[Search]](https://talks.cam.ac.uk/images/search.gif?1209136071)
|![[A-Z Index]](https://talks.cam.ac.uk/images/az.gif?1209136071)
|![[Contact]](https://talks.cam.ac.uk/images/contact.gif?1209136071)
||![[University of Cambridge]](https://talks.cam.ac.uk/images/identifier2.gif?1209136071){kind=small} |
COOKIES: By using this website you agree that we can place Google Analytics Cookies on your device for performance monitoring. | ![[Talks.cam]](https://talks.cam.ac.uk/images/talkslogosmall.gif?1209136071) |
University of Cambridge > Talks.cam > Electrical Engineering > Rubbery and curvy electronics for seamless integration with humans. https://eng-cam.zoom.us/j/83780588985?pwd=c2t4S3VWNFJIak5SUWVxNFlIT3A0UT09
Rubbery and curvy electronics for seamless integration with humans. https://eng-cam.zoom.us/j/83780588985?pwd=c2t4S3VWNFJIak5SUWVxNFlIT3A0UT09Add to your list(s) Download to your calendar using vCal
If you have a question about this talk, please contact Kirsty Shepherd. Electronics that can seamlessly integrate with the human body could have significant impact in medical diagnostic therapeutics. However, seamless integration is a grand challenge because of the distinct nature between electronics and the human body. Conventional electronics are rigid and planar, made out of rigid materials. The human body is soft, deformable and curvilinear, comprised of biological materials, organs and tissues. Our approach is to create soft, rubbery and curvy electronics to solve this challenge. This talk is part of the Electrical Engineering series. This talk is included in these lists:Note that ex-directory lists are not shown. |
Other listsViolence Research Center Centre for Atmospheric Science seminars, Chemistry Dept. Department of German and DutchOther talksTALK POSTPONED - Ineffective Responses to Unlikely Outbreaks: Hypothesis Building in Newly-Emerging Infectious Disease Outbreaks Exploring the Linear Subspace Hypothesis in Gender Bias Mitigation The new global apartheid AstraZeneca Oncology Bioinformatics case studies and the skill sets we value Development of the social brain in adolescence and effects of social distancing Jörn Coers, Title: IFN-inducible GTPases as regulators of the non-canonical inflammasome and Eva Frickel Title: GBP1 as a gatekeeper of host cell death |
Thursday 03 December 2020, 16:00-17:00