What will it take to make our electronics smarter, faster, and more resilient? One idea is to build them from materials that are topological. Topology stems from a branch of mathematics that studies ...

Northwestern Engineering’s Christopher Wolverton is celebrating a millionth material milestone. His Open Quantum Materials Database (OQMD), which supports new materials design by identifying candidate ...

A massive new database of dielectric material properties could speed up the development of electronics like smartphones and energy storage systems. AI-driven materials discovery has great potential to ...

Waste analytics company Greyparrot has launched Deepnest, an artificial intelligence- (AI-) powered waste intelligence platform designed to give brands direct access to their recyclable material data.

For the U.S. Army Reserve’s 88th Readiness Division, the best way to effectively manage hazardous materials inventories and provide immediate access to safety data sheets came down to a simple choice: ...

3D printing is much like CNC milling or welding or just about any physical manufacturing process, in that good results fundamentally come down to having the right settings. In an effort to aid those ...

The Case Western Reserve University Office Research and Technology Management (ORTM) Agreements Team is responsible for the drafting, review and negotiation of material transfer agreements (MTAs), ...

According to the Ellen MacArthur Foundation, 45% of emissions stem not from energy use but from the way we produce and consume products, materials, and food —areas that demand a circular approach. As ...

A new materials database reveals more than 90,000 known 'topological' materials with persistent electronic properties. What will it take to make our electronics smarter, faster, and more resilient?