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 …

This manuscript serves a specific purpose: to give readers from fields such as material
science, chemistry, or electronics an overview of implementing a reservoir computing (RC) …

Despite their increasing usefulness in a wide variety of applications, organic electrochemical
transistors still lack a comprehensive and unifying physical framework able to describe the …

Operational stability is essential for the success of organic electrochemical transistors
(OECTs) in bioelectronics. The oxygen reduction reaction (ORR) is a common …

Organic electrochemical transistors (OECTs) have gained increasing attention during the
last decade due to their potential for bioelectronic applications, mainly attributed to their …

Next‐generation implantable computational devices require long‐term‐stable electronic
components capable of operating in, and interacting with, electrolytic surroundings without …

Precise monitoring of changes in ion concentration in electrolytic environments is of growing
interest in multiple fields, such as bioelectronics, food packaging, agricultural sensing, and …

The ability to bridge ionic and electronic transport coupled with large volumetric capacitance
renders organic electrochemical transistors (OECTs) ideal candidates for bioelectronic …

The reservoir computing (RC) system, known for its ability to seamlessly integrate memory
and computing functions, is considered as a promising solution to meet the high demands …

This paper introduces Elegans-AI models, a class of neural networks that leverage the
connectome topology of the Caenorhabditis elegans to design deep and reservoir …