An AI-enabled wearable sensor with vibratory feedback significantly reduces nocturnal scratching in atopic dermatitis, ...

Carbon dioxide (CO2) is a major respiratory metabolite, and continuous monitoring of CO2 concentration in exhaled breath is ...

In the lab, the researchers combined polymers with a nanoparticle core composed of nickel hexacyanoferrate (NiHCF). “This ...

Patients with mild atopic dermatitis who reported nighttime scratching experienced relief when they used an artificial ...

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 ...

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

Professor Seunghyup Yoo's research team of the School of Electrical Engineering developed an ultralow-power carbon dioxide ...

A project at Penn State University and China's Hebei University of Technology has now developed a wearable sensor able to ...

Researchers have developed a way to print nanoparticles like ink, creating inexpensive sweat sensors that can continuously monitor multiple molecules.

An AI-powered wearable sensor has been shown to reduce nighttime scratching in patients suffering from dermatitis conditions involving chronic itching. As part of the peer-reviewed study published ...

Epicore Biosystems, another company from John Rogers' lab, has raised $26 million in Series B funding, led by the Steele ...