In the fast-paced world of medical innovation, the development of programmable microbots is emerging as a revolutionary force, offering groundbreaking ...

The newest generation of microrobots is so small that a single unit can perch on the ridge of a fingerprint and practically ...

(Nanowerk Spotlight) Imagine a material that doesn’t just respond to one stimulus, like heat or light, but can sense multiple environmental triggers and adjust its behavior accordingly. Picture this ...

MIT researchers have developed a method for 3D printing materials with tunable mechanical properties, which can sense how they are moving and interacting with the environment. The researchers create ...

Scientists are harnessing cells to make new types of materials that can grow, repair themselves and even respond to their environment. These solid “engineered living materials” are made by embedding ...

Powered by light, the robots carry computers and can move in complex patterns, say Penn Engineering and University of ...

Synthetic proteins based on those found in a variety of squid species' ring teeth may lead the way to self-healing polymers carefully constructed for specific toughness and stretchability that might ...

MIT's Self-Assembly Lab has developed materials that can be programmed to transform their shape autonomously -- from flexible carbon fibre and hybrid plastics to wood grains and textiles. Skylar ...

Recent advances in nanotechnology of two-dimensional (2D) layered materials combined with parallel improvements in biotechnology and synthetic biology demonstrated that more complex composites ...

Sen. John Fetterman of Pennsylvania and Sen. Ted Budd announced legislation this month to create the first national system of programmable cloud laboratories with the aim of accelerating scientific ...

DNA information is stored in a sequence of chemical building blocks; computers store information as sequences of zeros and ones. Researchers want to transfer this concept to artificial molecules.