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 …

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

Organic electronics can be biocompatible and conformable, enhancing the ability to
interface with tissue. However, the limitations of speed and integration have, thus far …

Flexible and stretchable biosensors can offer seamless and conformable biological–
electronic interfaces for continuously acquiring high‐fidelity signals, permitting numerous …

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

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 …

Neuromorphic computing could be used to directly perform complex classification tasks in
hardware and is of potential value in the development of wearable, implantable and point-of …

Bioelectronic interfacing with the human body including electrical stimulation and recording
of neural activities is the basis of the rapidly growing field of neural science and engineering …

Abstract Next-generation biomedical devices,,,,,,,–will need to be self-powered and
conformable to human skin or other tissue. Such devices would enable the accurate and …

Narrowing the mechanical mismatch between tissue and implantable microelectronics is
essential for reducing immune responses and for accommodating body movement …