학회 |
한국화학공학회 |
학술대회 |
2021년 봄 (04/21 ~ 04/23, 부산 BEXCO) |
권호 |
27권 1호, p.177 |
발표분야 |
고분자 |
제목 |
A Biocompatible Ionogel-Based Neurointerface for Highly Stable Capacitive Charge Injection |
초록 |
Reducing the complications caused by neural prostheses in human tissues is necessary for preventing unintended immune responses. Recently, efforts to overcome this limitation have attracted a great deal of attention, and research into implantable neuro-stimulators using conducting polymers is surging. However, the faradaic charge injection in the conducting polymers, which results in the creation of chemical species, cause disorders of acidosis. Here, we report on a novel design for biocompatible ionogel based electrodes for neural stimulation using the capacitive charge injection mechanism. The biocompatible iontrode serves as a neural interface and an ion-diffusion barrier; they consist of choline-derived ionic liquids and the chitosan polymer matrix, and the graphene oxide membrane layer which is coated on the surface of the iontrode respectively. The ion diffusion barrier effectively prevents ion exchange in the neural interface and enables relatively high charge injection capacity owing to the large surface area of the graphene oxide. This allowed us to demonstrate biocompatible iontrode for highly stable electrical stimulation of the sciatic nerve in live mice. |
저자 |
김주성1, 김준호2, 임준우3, 박준재1, 김윤아1, 정재현3, 박성민2, 김도환1
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소속 |
1한양대, 2포항공과대, 3숭실대 |
키워드 |
첨단고분자 |
E-Mail |
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원문파일 |
초록 보기 |