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Photocurable bioresorbable adhesives as functional interfaces between flexible bioelectronic devices and soft biological tissues.

Quansan YangTong WeiRose T YinMingzheng WuYameng XuJahyun KooYeon Sik ChoiZhaoqian XieSheena W ChenIrawati KandelaShenglian YaoYujun DengRaudel AvilaTzu-Li LiuWubin BaiYiyuan YangMengdi HanQihui ZhangChad R HaneyK Benjamin LeeKedar K ArasTong WangMin-Ho SeoHaiwen LuanSeung Min LeeAnlil BrikhaNayereh Ghoreishi-HaackLori TranIwona StepienFraser AirdEmily Alexandria WatersXinge YuAnthony BanksGregory D TrachiotisJohn M TorkelsonYonggang HuangYevgenia KozorovitskiyIgor R EfimovJohn A Rogers
Published in: Nature materials (2021)
Flexible electronic/optoelectronic systems that can intimately integrate onto the surfaces of vital organ systems have the potential to offer revolutionary diagnostic and therapeutic capabilities relevant to a wide spectrum of diseases and disorders. The critical interfaces between such technologies and living tissues must provide soft mechanical coupling and efficient optical/electrical/chemical exchange. Here, we introduce a functional adhesive bioelectronic-tissue interface material, in the forms of mechanically compliant, electrically conductive, and optically transparent encapsulating coatings, interfacial layers or supporting matrices. These materials strongly bond both to the surfaces of the devices and to those of different internal organs, with stable adhesion for several days to months, in chemistries that can be tailored to bioresorb at controlled rates. Experimental demonstrations in live animal models include device applications that range from battery-free optoelectronic systems for deep-brain optogenetics and subdermal phototherapy to wireless millimetre-scale pacemakers and flexible multielectrode epicardial arrays. These advances have immediate applicability across nearly all types of bioelectronic/optoelectronic system currently used in animal model studies, and they also have the potential for future treatment of life-threatening diseases and disorders in humans.
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