LMU researcher Professor Alexander Urban and his team have developed a tool that could revolutionize the design of new materials. Synthesizer is a platform that combines automated chemical synthesis, ...

(Nanowerk Spotlight) Scientists are developing new ways to observe and direct the construction of materials at the smallest scales. Recent advances in scanning transmission electron microscopes (STEMs ...

In the early 20th century, the development of a catalyst for ammonia synthesis by the Haber-Bosch method took more than 10,000 experiments before it was successful. The development of new materials is ...

Nanostructured two-dimensional gold monolayers offer possibilities in catalysis, electronics, and nanotechnology. Nanostructured two-dimensional gold monolayers offer possibilities in catalysis, ...

This roadmap examines how nanomaterials, electrocatalysts, membranes, and device engineering can advance renewable energy ...

Nanoparticles exhibit distinct physical and chemical properties compared to bulk materials, making them valuable in applications such as electronics, photovoltaics, catalysis, and biomedical sciences.

Researchers from Drexel University who discovered a versatile type of two-dimensional conductive nanomaterial, called a MXene, nearly a decade and a half ago, have now reported on a process for ...

A new autonomous laboratory navigated through billions of potential material synthesis recipes to identify brighter, lead-free light-emitting ...

A research team has developed a high-performance coating material that self-assembles from 2D nanosheets, and which could significantly extend the shelf life of electronics, energy storage devices, ...

The quantum size effect (QSE) is the change in a material's electronic, optical, magnetic, or thermal behavior when one or more of its dimensions become small enough to confine charge carriers such as ...