Print Email Facebook Twitter Fabrication and Characterization of an Upside-Down Carbon Nanotube Microelectrode Array Title Fabrication and Characterization of an Upside-Down Carbon Nanotube Microelectrode Array Author Gaio, N. (TU Delft Electronic Components, Technology and Materials) Silvestri, C. (TU Delft Tera-Hertz Sensing) van Meer, B.J. (Leiden University Medical Center) Vollebregt, S. (TU Delft Electronic Components, Technology and Materials) Mummery, CL (Leiden University Medical Center) Dekker, R. (TU Delft Electronic Components, Technology and Materials) Date 2016 Abstract Microelectrode arrays (MEAs) are widely used in biological application to locally stimulate and record the electrical activity of living cells. Here, a novel fabrication process for a carbon nanotube (CNT)-based MEA integrated on the backside of a free standing stretchable membrane is reported. The newprocess flow overcomes the manually intensive procedures used in the previous works. The microfabricated upside-down CNT MEA consists of microelectrodes with an area of 110 μm2 covered with cobalt-grown CNTs. The surface area enhancement and the foamlike morphology of the CNTs allow an increase of the charge injection per unit area at the electrode–electrolyte interface, resulting in a significantly lower electrochemical impedance of the electrodes. In particular, at 1 kHz, the fabricated CNT-MEA electrodes show a reduction of the overall impedance up to 96% in comparison with benchmark TiN electrodes. Theobtained results confirm the effectiveness of the proposed surface texturing through CNT integration. Moreover, the quality and the morphology as well as the biocompatibility of the fabricated CNT-based electrodes were assessed. The obtained results demonstrate that significant improvement can be achieved by integrating structured nanoporous material on MEAs. Subject Microelectrode arraycarbon nanotubemembranein vitroelectrochemical impedance spectroscopycardiomyocytesRaman spectroscopy To reference this document use: http://resolver.tudelft.nl/uuid:78630af9-a08a-4a74-a6f8-cccfa1767104 DOI https://doi.org/10.1109/JSEN.2016.2573854 ISSN 1530-437X Source IEEE Sensors Journal, 16 (24), 8685-8691 Bibliographical note Accepted author manuscript Part of collection Institutional Repository Document type journal article Rights © 2016 N. Gaio, C. Silvestri, B.J. van Meer, S. Vollebregt, CL Mummery, R. Dekker Files PDF 11145015_JSEN2573854.pdf 9.97 MB Close viewer /islandora/object/uuid:78630af9-a08a-4a74-a6f8-cccfa1767104/datastream/OBJ/view