Researchers at the Massachusetts Institute of Technology (MIT) have developed a specialized 3D printer that utilizes food waste as a raw material. Called the FOODres.AI Printer, it can turn everyday ...

In 2019 alone, the US generated 66 million tons of food waste. The majority of that waste (60 percent) ended up in landfills.

EU-funded Horizon Europe project tackles lower production cost, enhanced sustainability and first-time-right parts ...

In a breakthrough for regenerative medicine, a new study from IMDEA Materials Institute researchers has demonstrated the ...

UT researchers published a paper in Nature Materials on June 30 describing a resin 3D printing process that creates structures with hard and soft properties in a single object. This finding can help ...

A new 3D printing technique allows printing of fabric far larger than the 3D printer. JuggerBot 3D has inked a deal with the ...

This makes it far easier to perform this type of assembly in real life, because you’d need to generate a much smaller set of ...

Researchers at the University of Texas at Austin developed a fast 3D printing process that fuses rubber-like and rigid ...

A cheetah's powerful sprint, a snake's lithe slither, or a human's deft grasp: Each is made possible by the seamless interplay between soft and rigid tissues. Muscles, tendons, ligaments, and bones ...

UTA professors 3D print heart patch to support cardiac care, in an attempt to one day regenerate damaged cardiac muscle.

How a DNA 3D printer could revolutionize nanochip design, enabling optical computing, cheaper microchips, and eco-friendly fabrication.

Tessella Biosciences, a McMaster University-backed start-up, has produced a bioink that can be used to 3D print simulated lung tissue.