Patients with ID receiving TNF inhibitors are at greater risk for cutaneous malignancy than patients who are biologic-naïve.

Instead of focusing on sensor readings at specific points, their magnetoreceptor captures electrical resistance information ...

In a giant leap towards humanizing machines, scientists have developed an innovative electric skin that allows robots to sense the world around them- from a gentle tap to a sudden burst of heat, and ...

Scientists have developed a new type of robotic skin that allows robots to feel touch, heat, pressure, and even damage.

When aiming for stretchable, health-monitoring, skin-like sensor sheets, materials with demanding properties are required: they need to be flexible, biocompatible, and electrically conductive at the ...

S cientists have developed a new type of electronic "skin" that could give robots the ability to "feel" different tactile ...

A team at Denmark’s Technical University has engineered an electronic material that mimics human skin—flexible, stretchable, and capable of healing itself in seconds, this innovation could reshape the ...

Researchers at DTU have developed a new kind of electronic material that behaves almost exactly like human skin. The substance could be useful in soft robotics, medicine, and health care.

Researchers at DTU have made a significant achievement by developing a new kind of electronic material that behaves almost exactly like human skin. That kind of substance could be useful in ...

Michael Berger has featured an article in the journal Advanced Materials, which reviews 25 years of work on e-skin (aka, electronic skin or artificial skin) in his Nov. 15, 2013 Nanowerk Spotlight ...

Electronic skin (eSkin) with various types of sensors over large conformable substrates has received considerable interest in robotics. The continuous operation of large number of sensors and the ...