This paper introduces the first experimental results of a new implantable slim-base three-dimensional (3D) probe array for cerebral applications. The probes are assembled perpendicularly into the slim-base readout platform where electrical and mechanical connections are achieved simultaneously. A new type of micromachined interconnect has been developed to establish electrical connection using extreme planarization techniques. Due to the modular approach of the platform, probe arrays of different dimensions and functionality can be assembled. The platform is only several hundred microns thick which is highly relevant for chronic experiments in which the probe array should be able to float on top of the brain. Preliminary tests were carried out with the implantation of a probe array into the auditory cortex of a rat.
Amperometric analysis systems with two or three require a potential of reference electrode stable in function of time. In this work we developed an Ag/AgCl pseudo-reference onto gold film on silicon substrate. The amperometric electrodeposition method utilized (constant potential) provided a uniform deposited film and a controlled process characterization. It allows us to obtain electrodes with excellent performance during fourteen consecutives day. The characterization in function of the chloride concentration and time were also presented.
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