A wave of recent research has brought robotic touch sensitivity closer to human fingertips than ever before, driven by graphene-based composites and machine learning that let artificial skins detect ...
The new concept comes from Cornell University researchers, who have devised a type of robot exoskeleton which can quickly change its shape as it senses chemical or thermal changes in the environment.
Aerospace and Mechanical Insider on MSN

Bone-like hydrogel boosts robotics and sensor performance

Hydrogels have long been valued for their elasticity, but their relatively low mechanical strength has limited applications ...
With the first ever documented observation of the self-healing phenomena of graphene, researchers from Hyderabad, India, hint at future applications for its use in artificial skin. Graphene, which is, ...
The newly granted patents further strengthen an already globally leading portfolio of patents on anode materials for high-energy and fast-charging lithium batteries ...