Microelectronics meets molecular and neurobiology

Abstract

The electrical interfacing of nerve cells and semiconductor microstructures is considered. The coupling of electron conducting silicon with ion conducting neurons relies on a close contact of the chip and the cell membrane with its ion channels. Excitation of neuronal activity is achieved by capacitive interaction with the channels and recording by the response of transistors to open channels. Integrated neuroelectronic systems are obtained by outgrowth of a neuronal net on silicon and by two-way interfacing of the neuronal and electronic components.