Due to the intense global impact of fossil fuel overuse on air quality and climate, the search for advanced clean energy solutions has become critical. Metal–air batteries offer a game-changing ...

The development of catalysts has long depended on the trial-and-error methods which are time-consuming and often yield inconsistent data. To improve the precision and ...

Researchers develop an AI-based platform that integrates reaction data with catalyst performance for the design of new ...

Using high-temperature shock technology, bulk copper was successfully converted into Cu single-atom catalysts (0.54 wt% Cu loading) within 0.5 seconds, effectively preventing atomic aggregation. In ...

Ammonia (NH3) is a colorless chemical compound comprised of nitrogen and hydrogen that is widely used in agriculture and in ...

CatDRX is a generative AI framework developed at Institute of Science Tokyo, which enables the design of new chemical catalysts based on the specific chemical reactions in which they are used. The ...

The novel iron-based catalyst exhibits superior performance for ammonia (NH3) synthesis compared to a well-established, century-old counterpart. By designing this new catalyst with an inverse ...

Japanese scientists unveil a catalyst that turns CO₂ into liquid methanol at room temperature with 100% efficiency.

Researchers used sonicated carbon nanotubes to enable a reaction pathway that can pinpoint specific contaminants and break them down to help save our water. (Nanowerk News) Water is one of the most ...

Strong electron donation from aluminum hydride to iron surface facilitates decomposition nitrogen molecules, followed by ammonia synthesis, even at 50°C. Credit: Institute of Science Tokyo No catalyst ...