Enhancement-mode ion-based transistor as a comprehensive interface and real-time processing unit for in vivo electrophysiology

Claudia Cea; George D. Spyropoulos; Patricia Jastrzebska-Perfect; José Javier Ferrero; Jennifer N. Gelinas; Dion Khodagholy

doi:https://doi.org/10.1038/s41563-020-0638-3

doi.org/10.1038/s41563-020-0638-3

Enhancement-mode ion-based transistor as a comprehensive interface and real-time processing unit for in vivo electrophysiology

Claudia Cea

8

,

George D. Spyropoulos

24

,

..., Dion Khodagholy

25

Nature Materials41.20

Volume: 19, Issue: 6, Pages: 679 - 686

Published: Mar 16, 2020

Abstract

Bioelectronic devices must be fast and sensitive to interact with the rapid, low-amplitude signals generated by neural tissue. They should also be biocompatible and soft, and should exhibit long-term stability in physiologic environments. Here, we develop an enhancement-mode, internal ion-gated organic electrochemical transistor (e-IGT) based on a reversible redox reaction and hydrated ion reservoirs within the conducting polymer channel, which...

Paper Fields

Paper Details

Title

Enhancement-mode ion-based transistor as a comprehensive interface and real-time processing unit for in vivo electrophysiology

DOI

doi.org/10.1038/s41563-020-0638-3

Published Date

Mar 16, 2020

Journal

Nature Materials

Volume

19

Issue

6

Pages

679 - 686

Citation AnalysisPro

You’ll need to upgrade your plan to Pro

Looking to understand the true influence of a researcher’s work across journals & affiliations?

Scinapse’s Top 10 Citation Journals & Affiliations graph reveals the quality and authenticity of citations received by a paper.
Discover whether citations have been inflated due to self-citations, or if citations include institutional bias.

Learn more

Notes

History