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BPN745: Wafer-Scale Intracellular Carbon Nanotube-Based Neural Probes

Abstract:

Current in-vivo methods of electrical recordings of the brain are hampered by low spatial resolution, invasiveness to the surrounding tissue, and scalability. Carbon nanotube based electrodes are ideal for intracellular neural recordings due to their small size and flexibility, allowing for higher density arrays and less damage to the brain. However, current methods for selective placement and alignment of carbon nanotubes cannot be done easily on a wafer scale. This project aims to solve this issue in order to create wafer-scale carbon nanotube based neural probes for intracellular recordings.

Project end date: 08/23/16

Author:

Konlin Shen

Publication date:

January 25, 2016

Publication type:

BSAC Project Materials (Final/Archive)

Citation:

View Project Materials* (BSAC Members Only)

Archived Materials

*Only registered BSAC Industrial Members may view project materials & publications. Click here to request member-only access.

BPN745: Wafer-Scale Intracellular Carbon Nanotube-Based Neural Probes

View Project Materials* (BSAC Members Only)

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