Organic Neuromorphic Bioelectronics

A loss-less and bidirectional communication in bioelectronic interfaces requires electronic devices and circuits that communicate with biological systems by using the similar language, meaning the same carriers of information and the same forms of signaling. Organic artificial neurons based on electrochemical non-linear phenomena have recently shown to emulate efficiently the basic neuronal signaling, while operating in the biological wetware. This talk will focus on how electrochemical non-linearities either at a device or circuit level can be used for the implementation of biorealistic neuromorphic electronics. The precise engineering of such electrochemical non-linearities can allow for tailor-made biomimetic circuits and will eventually form the foundation for the field of neuromorphic bioelectronics.