Advances in sensor technology have enabled the integration of wearable devices into various research fields ... The system’s hardware includes piezoelectric sensors, a signal amplifier, and a ...

Wearable generation is reworking health, presenting customized insights, real-time tracking, and integration with healthcare ...

Fingernail-sized vibrating gadgets, similar to the tiny devices that make your cellphone buzz, could help people with ...

A major challenge in self-powered wearable sensors for health care monitoring is distinguishing different signals when they occur at the same time. Researchers addressed this issue by uncovering a new ...

Developed by Northwestern Engineering’s Igor Efimov and George Washington University’s Luyao Lu, the implantable device uses ...

The U.S. Food and Drug Administration has approved Onapgo (apomorphine hydrochloride) injection as the first and only ...

Smart watches, rings, and a growing array of patches are adding more functionality and being used across a growing set of applications.

The innovative self-powered sensor from DGIST combines triboelectric and mechanoluminescent technologies, ensuring reliable ...

A DGIST research team, led by Professor Kyung-In Jang, has developed a smart patch capable of real-time biometric signal monitoring and drug delivery. This patch integrates various sensors and a drug ...

DGIST research teams have developed a self-powered sensor that uses motion and pressure to generate electricity and light ...

This core can be ‘oxidised’ or decreased when in contact with sweat, generating an electrical signal that varies ... develop ...