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

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

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 ...

Described as core–shell cubic nanoparticles by the Caltech team, nanoparticles are central to the function of the biosensors.

Just 2 layers of materials commonly used in biomedical labs can mimic the electrical properties of human skin.

Infineon’s MEMS ultrasound transducer supports a range of use cases from consumer electronics to medical devices.

This makes it harder for wearable devices to pick up signals. Hydrated skin conducts electricity more easily because water improves the movement of charged particles, leading to better signal quality.

Abstract: Wearable wristband device-based epilepsy detection has the merits of noninvasiveness, portability, low costs, and good environmental adaptability. However, attention has been paid to ...