Bioelectronics have made strides in improving clinical diagnostics and precision medicine.
The potential of bioelectronics for bidirectional interfacing with biology through continuous …

Electrochemical detection of metabolites is essential for early diagnosis and continuous
monitoring of a variety of health conditions. This review focuses on organic electronic …

Over the last few years, organic bioelectronics has experienced an exponential growth with
applications encompassing platforms for tissue engineering, drug delivery systems …

The widespread use of conducting polymers, especially poly (3, 4-ethylene dioxythiophene)(
PEDOT), within the space of bioelectronics has enabled improvements, both in terms of …

Transmembrane proteins represent a major target for modulating cell activity, both in terms
of therapeutics drugs and for pathogen interactions. Work on screening such therapeutics or …

Advances in three-dimensional (3D) cell culture materials and techniques, which more
accurately mimic in vivo systems to study biological phenomena, have fostered the …

Bioelectronic devices, interfacing neural tissue for therapeutic, diagnostic, or rehabilitation
purposes, rely on small electrode contacts in order to achieve highly sophisticated …

An organic conductive polymer, poly (3, 4-ethylenedioxythiophene): poly (styrenesulfonate)(
PEDOT: PSS), is an attractive candidate for a low-cost, low-temperature, and solution …

Organic electrochemical transistors (OECTs) are promising devices for bioelectronics, such
as biosensors. However, current cleanroom‐based microfabrication of OECTs hinders fast …

Transmembrane proteins (TMPs) regulate processes occurring at the cell surface and are
essential gatekeepers of information flow across the membrane. TMPs are difficult to study …