An international team of scientists, including researchers from Loughborough University, has developed a method to dramatically speed up the discovery and design of advanced materials. The study, ...

Topological interlocking materials and structures represent an innovative design approach in which individual, often geometrically complex, elements are arranged to mutually constrain one another.

A comprehensive review of laser additive manufacturing (LAM) of metallic lattice structures demonstrates how advanced design strategies, processing control, and material innovations significantly ...

Most solid materials we rely on, from steel, to plastics and ceramics, are designed to have specific properties. Whether a material is soft and flexible, or stiff and tough depends on how molecules ...

The new method can determine crystal structures underlying experimental data thus far difficult to analyze. A joint research team led by Yuuki Kubo and Shiji Tsuneyuki of the University of Tokyo has ...

Mesoporous materials are a class of nanomaterials characterized by their highly ordered porous structure with pore sizes ranging from 2 to 50 nanometers. These materials possess large surface areas, ...

In the future, there could be materials that can reconfigure themselves on demand, adapting their structure and properties like living organisms. A team of Japanese scientists have created a ...

(Nanowerk Spotlight) The materials we interact with every day—whether they are steel, glass, or rubber—have properties like strength, flexibility, or brittleness that stem from their chemical ...

Rethink architectural lightness as a balance of efficiency, sustainability, and responsibility in the face of global ...

A Korean research team has developed a flexible yet strong material by mimicking the structure of an abalone shell. With higher electrical storage efficiency than conventional insulators, it is ...