Charge injection capacity of ferroelectric microelectrodes for bioelectronic applications

Abstract

We analyze the extracellular stimulation current and the charge injection capacity (CIC) of microelectrodes coated with an insulating layer to prevent toxic electrochemical effects in bioelectronic applications. We show for a microelectrode coated with an insulating ferroelectric layer that the ferroelectric polarization current contributes to the extracellular stimulation current. Depending on the remanent polarization Pr of the ferroelectric, the polarization current in the switching regime can increase the CIC by up to two orders of magnitude as compared to the commonly used extracellular capacitive stimulation with microelectrodes that are coated with a dielectric layer.