Novel carbon-fiber microelectrode batch fabrication using a 3D-printed mold and polyimide resin
Literature Information
Publication Date
2016-08-18
DOI
10.1039/C6AN01469K
Impact Factor
4.616
Authors
Elefterios Trikantzopoulos, Cheng Yang, Mallikarjunarao Ganesana, Ying Wang, B. Jill Venton
View Original
Abstract
Glass insulated carbon-fiber microelectrodes (CFMEs) are standard tools for the measurement of neurotransmitters. However, electrodes are fabricated individually and the glass can shatter, limiting application in higher order mammals. Here, we developed a novel microelectrode batch fabrication method using a 3D-printed mold and polyimide resin insulating agent. The 3D-printed mold is low cost, customizable to change the electrode shape, and allows 40 electrodes to be made simultaneously. The polyimide resin is biocompatible, quick to cure, and does not adhere to the plastic mold. The electrodes were tested for the response to dopamine with fast-scan cyclic voltammetry both in vitro and in vivo and performed similarly to traditional glass-insulated electrodes, but with lower background currents. Thus, polyimide-insulated electrodes can be mass-produced using a 3D-printed mold and are an attractive alternative for making cheap, biocompatible microelectrodes.
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Analyst
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Recommended Compounds
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6-[2-(Trifluoromethoxy)phenyl]-2-pyridinecarboxylic acid
CAS Number:
887983-48-4
Molecular Formula:
C13H8F3NO3
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