In individuals with sensory-motor impairments, missing limb functions can be restored using
neuroprosthetic devices that directly interface with the nervous system. However, restoring …

Most prosthetic limbs can autonomously move with dexterity, yet they are not perceived by
the user as belonging to their own body. Robotic limbs can convey information about the …

Connecting different electronic devices is usually straightforward because they have paired,
standardized interfaces, in which the shapes and sizes match each other perfectly. Tissue …

Surface electromyography (sEMG) can provide multiplexed information about muscle
performance. If current sEMG electrodes are stretchable, arrayed, and able to be used …

The hand endows us with unparalleled precision and versatility in our interactions with
objects, from mundane activities such as gras** to extraordinary ones such as virtuoso …

On‐skin electrodes function as an ideal platform for collecting high‐quality
electrophysiological (EP) signals due to their unique characteristics, such as stretchability …

Restoration of sensorimotor function after amputation has remained challenging because of
the lack of human-machine interfaces that provide reliable control, feedback, and …

The journey of a prosthetic user is characterized by the opportunities and the limitations of a
device that should enable activities of daily living (ADL). In particular, experiencing a bionic …

As the most ideal interface between bioelectronic devices and biological tissues, the
electrical bioadhesive interface (EBI) holds significant potential for various applications …

Our expanding expertise in peripheral nerve regeneration and soft tissue reconstruction is
enabling the development of novel innervated tissue constructs that can be combined with …