In-vivo Dopamine Sensing PEDOT:CNF Neural Probe Design and Simulation

Stefanus Wirdatmadja; Harshitaa Ganesan; Lauri Sydänheimo; Merja Voutilainen; Leena Ukkonen

doi:10.23919/FRUCT64283.2024.10749964

Proceedings of the XXth Conference of Open Innovations Association FRUCT (Nov 2024)

In-vivo Dopamine Sensing PEDOT:CNF Neural Probe Design and Simulation

Stefanus Wirdatmadja,
Harshitaa Ganesan,
Lauri Sydänheimo,
Merja Voutilainen,
Leena Ukkonen

Affiliations

Stefanus Wirdatmadja: Tampere University
Harshitaa Ganesan: Tampere University
Lauri Sydänheimo: Tampere University
Merja Voutilainen: University of Helsinki
Leena Ukkonen: Tampere University

DOI: https://doi.org/10.23919/FRUCT64283.2024.10749964
Journal volume & issue: Vol. 36, no. 1
pp. 817 – 823

Abstract

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The electrochemical analysis is one of the most popular implementations of a dopamine-sensing brain implant. Its performance depends significantly on the interaction between the dopamine molecule and the working electrode. Carbon nanofiber is an allotrope of carbon nanotube and is effective in increasing the contact surface with dopamine molecules. Considering its simple fabrication protocols using photolithography, physical vapor deposition, and electrochemical deposition, this material is suitable for in-vivo implementation. COMSOL simulation confirms that carbon nanofiber implementation increases the redox current while maintaining its linearity to the user-controlled dopamine concentration.

Published in Proceedings of the XXth Conference of Open Innovations Association FRUCT

ISSN: 2305-7254 (Print); 2343-0737 (Online)
Publisher: FRUCT
Country of publisher: Finland
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Telecommunication
Website: http://fruct.org/publication

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