Scientists at EPFL have reimagined 3D printing by turning simple hydrogels into tough metals and ceramics. Their process ...

When the 2025 Nobel Prize in Chemistry honored Omar Yaghi—the "father of metal-organic frameworks," or MOFs—along with Susumu ...

Stanford researchers have developed a mathematical model to map the microscopic structure of materials to plan nuclear waste storage.

MIT researchers found that a hidden atomic order can persist in metals even after they undergo extreme processing. For ...

MIT engineers have developed a printable aluminum alloy that can withstand high temperatures and is five times stronger than ...

When an MOF takes in gas or liquid molecules, its tiny framework changes ever so slightly: It may change in size, how it bends light, or how it conducts electricity, depending on what and how many ...

The Universitat Jaume I of Castelló launched in September a leading project on advanced solid electrolytes for lithium and ...

Incorporating machine learning, MIT engineers have developed a way to 3D print aluminum alloys that are five times stronger.

Tohoku University researchers dispel the “plasma effect” myth in spark plasma sintering, showing that both SPS and hot ...

Metasurfaces, as 2D artificial electromagnetic materials engineered at subwavelength scales, enable efficient manipulation of ...

Fungi are best known for returning dead, organic matter to the Earth, but materials scientists are exploring whether they ...

Kyoto Fusioneering is developing two next-generation breeder-blanket structural materials. One is a family of vanadium alloys ...