Perovskite solar cells are a flexible and sustainable alternative to conventional silicon-based solar cells. Researchers were able to find -- within only a few weeks -- new organic molecules that ...

Brewer Science's new co-CEOs talk about shifts in materials for IC manufacturing, flexible substrates, and the uncertainties ...

Materials like car tires, human tissues, and spider webs are diverse in composition, but all contain networks of ...

Nanoelectronics deal with extremely small electronic components—transistors, sensors and circuits that can fit on the tip of a needle. This technology powers our everyday lives through devices such as ...

Specialists at JSC NIIEFA and MISIS have developed a composite of tungsten and copper, using additive technologies, for the ...

A student project has discovered superconductivity in polycrystalline iron-nickel-zirconide. Researchers from Tokyo Metropolitan University have identified a groundbreaking new superconducting ...

Now, a new study shows that ferroelectricity can be imparted on a non-ferroelectric material if its stacked together—a ...

Resembling the interlocking links in chainmail, novel nanoscale material is incredibly strong and flexible. The interlocked ...

The Kansept Deadite’s groovy moniker is matched only by its premium blade and handle. (Somewhere, Bruce Campbell shudders.) ...

Materials innovation is also required for designing more efficient solar cells, cheaper batteries for grid-level energy storage, and adsorbents to recycle CO2 from atmosphere. Finding a new material ...

neither granular nor crystalline, that responds to some stresses as a fluid would and to others like a solid. The new material, known as PAM (for polycatenated architected materials) could ...

Researchers from Tokyo Metropolitan University have developed a new superconducting material by combining iron, nickel, and zirconium in varying ratios to create a transition metal zirconide. Unlike ...