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Free‐Standing Nanofilm Electrode Arrays for Long‐Term Stable Neural Interfacings

Lei Gao, Jinfen Wang, Yan Zhao, Hongbian Li, Mengcheng Liu, Jianfei Ding, Huihui Tian, Shouliang Guan, Ying Fang

2021Advanced Materials28 citationsDOI

Abstract

Flexible neural electrodes integrated on micrometer-thick polymer substrates offer important opportunities for improving the stability of neuronal activity recordings during cognitive processes. However, the bending stiffness of micrometer-thick polymer substrates is typically two orders of magnitude higher than that of nanofilm electrodes, making it a limiting factor in electrode-tissue interfacings. Here, this limitation is overcome by developing self-assembled nanofilm electrode arrays (NEAs) that consist of high-density, free-standing gold nanofilm electrodes. Chronically implanted NEAs can form intimate and innervated interfaces with neural tissue, enabling stable neuronal activity recordings across multiple brain regions over several months. As an application example, the activities of the same neuronal populations are tracked across odor discrimination reversal learning and it is illustrated how dorsal striatal neurons represent and update stimulus-outcome associations across multiple timescales. The results underscore the potential of free-standing nanoscale materials for interfacing biological systems over long terms.

Topics & Concepts

Materials scienceElectrodeMicrometerNanotechnologyNanoscopic scaleInterfacingMicroelectrodeLimitingPolymerBiological neural networkStimulus (psychology)Electrode arrayBiomedical engineeringNeuroscienceComputer scienceComposite materialBiologyChemistryComputer hardwarePhysicsPsychotherapistMechanical engineeringMedicinePsychologyPhysical chemistryOpticsEngineeringNeuroscience and Neural EngineeringNeural dynamics and brain functionElectrochemical Analysis and Applications