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Integrated opposite charge grafting induced ionic-junction fiber.

Yi XingMingjie ZhouYueguang SiChi-Yuan YangLiang-Wen FengQilin WuFei WangXiaomin WangWei HuangYuhua ChengRuilin ZhangXiaozheng DuanJun LiuPing SongHengda SunHongzhi WangJiayi ZhangSu JiangMeifang ZhuGang Wang
Published in: Nature communications (2023)
The emergence of ionic-junction devices has attracted growing interests due to the potential of serving as signal transmission and translation media between electronic devices and biological systems using ions. Among them, fiber-shaped iontronics possesses a great advantage in implantable applications owing to the unique one-dimensional geometry. However, fabricating stable ionic-junction on curved surfaces remains a challenge. Here, we developed a polyelectrolyte based ionic-junction fiber via an integrated opposite charge grafting method capable of large-scale continuous fabrication. The ionic-junction fibers can be integrated into functions such as ionic diodes and ionic bipolar junction transistors, where rectification and switching of input signals are implemented. Moreover, synaptic functionality has also been demonstrated by utilizing the fiber memory capacitance. The connection between the ionic-junction fiber and sciatic nerves of the mouse simulating end-to-side anastomosis is further performed to realize effective nerve signal conduction, verifying the capability for next-generation artificial neural pathways in implantable bioelectronics.
Keyphrases
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