Correlation between Transient Response and Neuromorphic Behavior in Organic Electrochemical Transistors

The factors controlling the neuromorphic response of organic electrochemical transistors (OECTs) are examined. In these devices, the gate voltage is used to supply the pre-synaptic input, while the drain current is taken as the post-synaptic output. The behavior of devices made from polymer blends of a mixed conductor (PEDOT:PSS) and an ion conductor (PSSNa) is analyzed. The experimental results highlight that the post-synaptic response timescale depends on the size of ion in the electrolyte. Modeling shows that the neuromorphic response is controlled by the transient response of the ionic circuit of the OECT. These insights on device response time pave the way for a more rational design of OECT-based neuromorphic devices.

Automated summary

This study examines the factors controlling the neuromorphic response of organic electrochemical transistors (OECTs) and highlights the dependence of post-synaptic response timescale on the size of ions in the electrolyte. Modeling further reveals that the transient response of the ionic circuit of the OECT controls the neuromorphic response. These findings provide insights for a more rational design of OECT-based neuromorphic devices.