Title :
CMOS-Based High-Density Silicon Microprobe Arrays for Electronic Depth Control in Intracortical Neural Recording
Author :
Seidl, Karsten ; Herwik, Stanislav ; Torfs, Tom ; Neves, Herc P. ; Paul, Oliver ; Ruther, Patrick
Author_Institution :
Dept. of Microsyst. Eng. (IMTEK), Univ. of Freiburg, Freiburg, Germany
Abstract :
This paper reports on a novel high-density CMOS-based silicon microprobe array for intracortical recording applications. In contrast to existing systems, CMOS multiplexing units are integrated directly on the slender, needle-like probe shafts. Single-shaft probes and four-shaft combs have been realized with 188 and 752 electrodes, respectively, with a pitch of 40 μm arranged in two columns along 4-mm-long probe shafts. Rather than performing a mechanical translation of the probe shaft relative to the brain tissue to optimize the distance between electrodes and neurons, the electrode position is adjusted by electronically switching between the different electrodes along the shaft. The paper presents the probe concept, the CMOS circuitry design, the applied post-CMOS fabrication process, and the assembled probe systems.
Keywords :
CMOS integrated circuits; bioMEMS; biomedical electrodes; brain; elemental semiconductors; neurophysiology; silicon; CMOS circuitry design; CMOS multiplexing units; CMOS-based high-density silicon microprobe arrays; brain tissue; electrode position; electrodes; electronic depth control; four-shaft combs; intracortical neural recording; intracortical recording applications; needle-like probe shafts; post-CMOS fabrication process; single-shaft probes; Arrays; CMOS integrated circuits; Electrodes; Fabrication; Three dimensional displays; 3-D probe arrays; CMOS circuitry; electrode selection; high-density electrode array; microelectromechanical systems (MEMS) fabrication; neural recording; post-CMOS fabrication; silicon microprobes;
Journal_Title :
Microelectromechanical Systems, Journal of
DOI :
10.1109/JMEMS.2011.2167661
