Wearable devices for early disease monitoring and diagnosis
Researchers have developed an integrated system for early diagnosis of diseases using wearable monitors.
Researchers have developed an integrated system for early diagnosis of diseases using wearable monitors.
Scientists have created flexible, metal-free electrode arrays that conform to the body - avoiding damage to organs.
Researchers have developed a new material that can facilitate a near-perfect merger between machines and the human body for diagnostics and treatment.
A wearable electronic device that’s 'really wearable” - a stretchy and fully-recyclable circuit board - can heal itself, much like real skin.
Researchers at Penn State have developed a supportive gel that allows for printing of complex shapes using cell aggregates.
Using a brain-inspired approach, scientists have developed a way for robots to have the AI to recognise pain and to self-repair when damaged.
Researchers have created synthetic materials with morphing abilities that can be 3D printed and self-heal within seconds.
Scientists have developed a soft synthetic material that can heal itself within a second after damage.
Researchers have developed an e-skin that may soon have a sense of touch equivalent to, or better than, the human skin with the Asynchronous Coded Electronic Skin (ACES).
A new sensor material suitable for developing a rehabilitation glove.
New creation could give machines human-like sense of touch to better judge human intentions and respond to changes in the environment
A new way of 3D printing soft materials such as gels and collagens offers a major step forward in the manufacture of artificial medical implants.