Neuromorphic computing offers the opportunity to curtail the huge energy demands of
modern artificial intelligence (AI) applications by implementing computations into new, brain …

This article summarizes the recent developments in organic neuromorphic devices, mainly
resistive switches (memristors) and organic electrochemical transistors. The materials for the …

Electrolyte‐gated transistors have been proposed as promising candidates for
neuromorphic applications. Synaptic plasticity behaviors and most recently synaptic …

Abstract Microelectrode Arrays (MEAs) are popular tools for in vitro extracellular recording.
They are often optimized by surface engineering to improve affinity with neurons and …

Recent studies are being focused on establishing a link between structural and mixed ionic-
electronic transport properties based on the characterization of organic mixed ionic …

Organic mixed ionic–electronic conductors (OMIECs) are being explored in applications
such as bioelectronics, biosensors, energy conversion and storage, and optoelectronics …

Abstract Organic Electrochemical Transistors (OECTs) are integral in detecting human
bioelectric signals, attributing their significance to distinct electrochemical properties, the …

Neuromorphic computing is an exciting and rapidly growing field that aims to create
computing systems that can replicate the complex and dynamic behavior of the human …

Four glycolated polythiophene‐based organic mixed ionic‐electronic conductors (OMIECs),
PE2gTT, PE2gT, PT2gTT, and PT2gT are prepared by atom‐efficient direct arylation …

Recently, the development of electronic devices to extracellularly record the simultaneous
electrical activities of numerous neurons has been blooming, opening new possibilities to …