In a breakthrough that blends ancient design with modern materials science, researchers have developed a new class of ceramic structures that can bend under pressure -- without breaking. In a ...

The dual-phase interpenetrating architecture was came out from the microstructure of natural materials. Based on the such unique structure, bioinspired P/CCSs was designed and fabricated via 3D ...

The same material from which you drink your morning coffee could transform the way scientists detect disease, purify water, and insulate space shuttles thanks to an entirely new approach to ceramic ...

Researchers have used 3-D printing to create ceramic structures from silicon polymers. Scientists at HRL Laboratories LLC in Malibu, Calif., announced their process overcomes the limitations of ...

This graphic shows the structure of a ceramic created from a Kansas State University-patented waterlike polymer. The ceramic has a random structure that provides stability at high temperatures. The ...

Ceramic-based microchemical systems (μCSs) are more suitable for operation under harsh environments such as high temperature and corrosive reactants compared to the more conventional μCS materials ...

Engineered living materials typically consist of soft hydrogels, polymers, or biofilms seeded with microorganisms that allow the materials to sense and degrade toxins, deliver therapies, and repair ...

In general, as an excellent convincing material, autologous bone substitute has been successfully applied in bone regeneration because of its low immune response and ...

Coating ceramic schwarzites, 3D-printed lattices, with a thin polymer helps keep them from shattering under pressure, according to materials scientists. A thin shell of soft polymer can help keep ...

In a breakthrough that blends ancient design with modern materials science, researchers at the University of Houston have developed a new class of ceramic structures that can bend under ...