3D shaped mechanically flexible diamond microelectrode arrays for eye implant applications: The MEDINAS project Matrices d’électrodes en diamant pour l’interfaçage neuronal appliqué à la suppléance fonctionnelle (MEDINAS)

The MEDINAS project aims at the fabrication of Micro-Electrode Arrays (MEA) that take advantage of a novel electrode material, namely synthetic conducting diamond, as the bio-interface material. Diamond enables the fabrication of electrodes with high biocompatibility, high electrochemical interfacin...

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Veröffentlicht in:	Ingénierie et recherche biomédicale 2011-04, Vol.32 (2), p.91-94
Hauptverfasser:	Bergonzo, P., Bongrain, Alexandre, Scorsone, Emmanuel, Bendali, A., Rousseau, L., Lissorgues, Gaelle Bazin, Mailley, P., Li, Y., Kauffmann, T., Goy, F., Yvert, B., Sahel, José-Alain, Picaud, S.
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Sprache:	eng
Schlagworte:	Bioengineering Biomaterials Instrumentation and Detectors Life Sciences Physics
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creator	Bergonzo, P. Bongrain, Alexandre Scorsone, Emmanuel Bendali, A. Rousseau, L. Lissorgues, Gaelle Bazin Mailley, P. Li, Y. Kauffmann, T. Goy, F. Yvert, B. Sahel, José-Alain Picaud, S.
description	The MEDINAS project aims at the fabrication of Micro-Electrode Arrays (MEA) that take advantage of a novel electrode material, namely synthetic conducting diamond, as the bio-interface material. Diamond enables the fabrication of electrodes with high biocompatibility, high electrochemical interfacing performances and long-term stability. The project aims at the development of diamond based MEAs for recording and stimulating of neuron networks for both in vitro applications (rigid substrate) as well as for in vivo retinal prostheses (flexible biocompatible substrate). The performances of this new technology were assessed as compared to standard metallic solutions.
doi_str_mv	10.1016/j.irbm.2011.01.032
format	Article
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subjects	Bioengineering Biomaterials Instrumentation and Detectors Life Sciences Physics
title	3D shaped mechanically flexible diamond microelectrode arrays for eye implant applications: The MEDINAS project Matrices d’électrodes en diamant pour l’interfaçage neuronal appliqué à la suppléance fonctionnelle (MEDINAS)
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