M. J. Oliveira, S. B. Goncalves, A. C. Peixoto, A. F. Silva, J. Correia
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Long neuroprobes based on silicon dicing and iridium oxide for electrical stimulation/recording
This paper synthesizes the development of a new 3D neuroprobe array, constituted by microelectrodes capable of electrical stimulation and recording. The array's design relies on a bulk silicon substrate dicing technology and it comprises 6 × 6 neuroprobes with three different penetrating lengths (from 3 to 4 mm) and a 180 μm cross-section. A reproducible fabrication method was demonstrated, capable of producing longer shafts than in previously reported arrays. In addition, sputtered titanium/iridium oxide microelectrodes have shown the required performance, with a consistent reversible electrochemical behavior and an impedance value of 145 Ω in the same frequency range as the stimulation protocols.
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