During natural tissue regeneration, tissue microenvironment and stem cell niche including
cell–cell interaction, soluble factors, and extracellular matrix (ECM) provide a train of …

While over half a century has passed since the introduction of enzyme glucose biosensors
by Clark and Lyons, this important field has continued to be the focus of immense research …

Tethered and battery-powered devices that interface with neural tissues can restrict natural
motions and prevent social interactions in animal models, thereby limiting the utility of these …

Miniature wireless bioelectronic implants that can operate for extended periods of time can
transform how we treat disorders by acting rapidly on precise nerves and organs in a way …

From environmental monitoring to point-of-care biofluid analysis, rapid ion determination
requires robust analytical tools. In recent years, driven by the development of materials …

Bone degeneration associated with various diseases is increasing due to rapid aging,
sedentary lifestyles, and unhealthy diets. Living bone tissue has bioelectric properties critical …

Self-powered implantable medical electronic devices that harvest biomechanical energy
from cardiac motion, respiratory movement and blood flow are part of a paradigm shift that is …

Cardiovascular electronic devices have enormous benefits for health and quality of life but
the long-term operation of these implantable and wearable devices remains a huge …

Implantable energy harvesters (IEHs) are the crucial component for self-powered devices.
By harvesting energy from organisms such as heartbeat, respiration, and chemical energy …

Nowadays, the human body is gradually digitized by various wearable and implantable
electronics. The establishment of a sustainable wireless internet of thing (IoT) sensory …