Organic electrochemical transistors (OECTs) can tune the ionic and electronic transporting
properties simultaneously. This unique characteristic renders OECT a promising technology …

Organic electrochemical transistors (OECTs) hold promise for develo** a variety of high‐
performance (bio‐) electronic devices/circuits. While OECTs based on p‐type …

Abstract n‐Type organic mixed ionic–electronic conductors (OMIECs) with high electron
mobility are scarce and highly challenging to develop. As a result, the figure‐of‐merit (µC*) …

Electropolymerization has become a convenient method for synthesizing and characterizing
complex organic copolymers having intrinsic electronic conductivity, including the donor (D) …

Organic electrochemical transistors (OECTs) are a rapidly advancing technology that plays a
crucial role in the development of next-generation bioelectronic devices. Recent advances …

Organic mixed ionic–electronic conductors (OMIECs) have gained recent interest and rapid
development due to their versatility in diverse applications ranging from sensing, actuation …

Currently, n‐type small‐molecule mixed ionic‐electronic conductors remain less explored
and their molecular design rules are not mature enough. Herein, two n‐type glycolated …

Porous morphologies have shown great potential in optimizing the capacitance and charge
carrier transport for semiconducting polymers in organic electrochemical transistors …

Over the last decade, the organic electrochemical transistor (OECT) has appeared as a
powerful platform for develo** organic bioelectronic applications such as electronic …

The electrochemical do**/dedo** kinetics, and the organic electrochemical transistor
(OECT) performance of a series of polythiophene homopolymers with ethylene glycol units …