Medical robots are invaluable players in non‐pharmaceutical treatment of disabilities.
Particularly, using prosthetic and rehabilitation devices with human–machine interfaces can …

Bioelectronics presents a promising future in the field of embedded and implantable
electronics, providing a range of functional applications, from personal health monitoring to …

Peripheral nerve interfacing (PNI) has a high clinical potential for treating various diseases,
such as obesity or diabetes. However, currently existing electrodes present challenges to …

Trauma often results in peripheral nerve injuries (PNIs). These injuries are particularly
challenging therapeutically because of variable nerve diameters, slow axonal regeneration …

This report describes a 3D microelectrode array integrated on a thin-film flexible cable for
neural recording in small animals. The fabrication process combines traditional silicon thin …

Bioelectronics hold the key for understanding and treating disease. However, achieving
stable, long‐term interfaces between electronics and the body remains a challenge …

Objective. Carbon fiber electrodes may enable better long-term brain implants, minimizing
the tissue response commonly seen with silicon-based electrodes. The small diameter fiber …

Stretchable conductive fibers (SCFs) are emerging materials that combine the advantages of
both fibers and stretchable electronics, with broad applications in various electronic devices …

Electrical stimulation of peripheral nerves is a cornerstone of bioelectronic medicine.
Effective ways to accomplish peripheral nerve stimulation (PNS) noninvasively without …

Abstract 3D printing technology has opened a new paradigm to controllably and
reproducibly fabricate bioengineered neural constructs for potential applications in repairing …