Abstract Electrolyte-gated transistors (EGTs), capable of transducing biological and
biochemical inputs into amplified electronic signals and stably operating in aqueous …

Expanding the toolbox of the biology and electronics mutual conjunction is a primary aim of
bioelectronics. The organic electrochemical transistor (OECT) has undeniably become a …

Organic electrochemical transistors (OECTs) and OECT-based circuitry offer great potential
in bioelectronics, wearable electronics and artificial neuromorphic electronics because of …

Owing to its close resemblance to biological systems and materials, soft matter has been
successfully implemented in numerous bioelectronic and biosensing applications, as well as …

Organic semiconductors are solution-processable, lightweight and flexible and are
increasingly being used as the active layer in a wide range of new technologies. The …

Materials that efficiently transport and couple ionic and electronic charge are key to
advancing a host of technological developments for next-generation bioelectronic …

This review outlines the design strategies which aim to develop high performing n-type
materials in the fields of organic thin film transistors (OTFT), organic electrochemical …

Flexible and stretchable bioelectronics provides a biocompatible interface between
electronics and biological systems and has received tremendous attention for in situ …

Organic electrochemical transistors (OECTs) make effective use of ion injection from an
electrolyte to modulate the bulk conductivity of an organic semiconductor channel. The …

A series of glycolated polythiophenes for use in organic electrochemical transistors (OECTs)
is designed and synthesized, differing in the distribution of their ethylene glycol chains that …