Because of their distinct electrochemical and mechanical properties, conducting polymer
hydrogels have been widely exploited as soft, wet, and conducting coatings for conventional …

Advanced technologies that can establish intimate, long‐lived functional interfaces with
neural systems have attracted increasing interest due to their wide‐ranging applications in …

Flexible and wearable acoustic wave technology has recently attracted tremendous
attention due to their wide-range applications in wearable electronics, sensing …

Implantable bioelectronics, integrated directly within the body, represent a potent biomedical
solution for monitoring and treating a range of medical conditions, including chronic …

Drawing inspiration from cohesive integration of skeletal muscles and sensory skins in
vertebrate animals, we present a design strategy of soft robots, primarily consisting of an …

Abstract Neurointerface or Brain–Machine Interface is a system of devices that utilizes the
electrical nature of neural signals to establish communication with the nervous system. This …

Soft and stretchable conductors with high electrical conductivity and tissue‐like mechanical
properties are crucial for both on‐skin and implantable electronic devices. Liquid metal …

In vivo implantation of microelectrodes opens the door to studying neural circuits and
restoring damaged neural pathways through direct electrical stimulation and recording …

Implantable neural microelectrodes exhibit the great ability to accurately capture the
electrophysiological signals from individual neurons with exceptional submillisecond …

Inflammation is a serious symptom of tendon rupture, that leads to peritendinous adhesion
and damages the recovery of motor function. Although it is commonly treated using medical …