Electroceuticals based on electrical stimulation of the vagus nerves shows great promise for
therapeutic application in a variety of diseases and clinical conditions. The exploration of …

Wirelessly powered implants are increasingly being developed to interface with neurons in
the brain. They often rely on microelectrode arrays, which are limited by their ability to cover …

In recent studies related to bioelectronics, significant efforts have been made to form 3D
electrodes to increase the effective surface area or to optimize the transfer of signals at …

Neurological and psychiatric conditions pose an increasing socioeconomic burden on our
aging society. Our ability to understand and treat these conditions relies on the development …

Fiber‐based configurations are highly desirable for wearable and implantable biomedical
devices due to their unique properties, such as ultra‐flexibility, weavability, minimal …

Biological systems have evolved biochemical, electrical, mechanical, and genetic networks
to perform essential functions across various length and time scales. High-aspect-ratio …

Neuromodulation is of great importance both as a fundamental neuroscience research tool
for analyzing and understanding the brain function, and as a therapeutic avenue for treating …

Brain‒machine interface (BMI) is a promising technology that looks set to contribute to the
development of artificial limbs and new input devices by integrating various recent …

This review is dedicated to electronics materials enabling thin‐film‐based neural interface
and bioelectronics devices. First‐generation bioelectronic medicine devices feature hand …

Photoresponsive biomaterials are experiencing a transition from in vitro models to in vivo
demonstrations that point toward clinical translation. Dynamic hydrogels for cell …