The organic electrochemical transistor (OECT) is one of the most versatile devices within the
bioelectronics toolbox, with its compatibility with aqueous media and the ability to transduce …

Bioelectronic devices are designed to translate biological information into electrical signals
and vice versa, thereby bridging the gap between the living biological world and electronic …

Fabrics represent a unique platform for seamlessly integrating electronics into everyday
experiences. The advancements in functionalizing fabrics at both the single fibre level and …

The field of organic mixed ionic‐electronic conductors (OMIECs) has gained significant
attention due to their ability to transport both electrons and ions, making them promising …

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

benzothieno [3, 2‐b] benzothiophene (BTBT), with two benzene rings as the outermost rings,
is referred to as diacene‐fused ladder‐type π‐conjugated thienothiophenes. During the last …

Highly efficient mixed ionic and electronic conduction is critical to developing high‐
performance organic electrochemical transistors (OECTs) devices. While currently, the n …

The quest to imbue machines with intelligence akin to that of humans, through the
development of adaptable neuromorphic devices and the creation of artificial neural …

Tuning the film morphology and aggregated structure is a vital means to improve the
performance of the mixed ionic–electronic conductors in organic electrochemical transistors …

This study reports intrinsic multimodal memristivity of a nonconjugated radical polymer with
ambient stability. Organic memristive devices represent powerful candidates for biorealistic …