Researchers discovered that copper oxide catalysts form metallic copper mid-reaction, triggering a dramatic boost in ammonia output. The insight offers a roadmap for designing cleaner, more efficient ...

Green ammonia has become one of the most closely watched candidates for decarbonizing fertilizer and heavy industry, yet its core chemistry still hinges on how efficiently catalysts can coax nitrogen ...

Researchers from Tokyo Metropolitan University have revealed how a catalyst in a promising chemical reaction for industry helps make ammonia, a major ingredient in fertilizer. Copper oxide is a key ...

A research team affiliated with UNIST has unveiled a novel electrochemical system that converts carbon dioxide (CO₂), a major ...

A new electrochemical method from UNIST efficiently transforms CO2 into formic acid, cutting energy consumption and enhancing production rates significantly.

Abstract Electrochemical formate (HCOO−) production via CO2 reduction reaction (CO2RR) holds great promise for carbon-neutral energy systems; however ...

A new production system has been developed that converts carbon dioxide, the main culprit of global warming, into formic acid, a high-value-added ...

An atomically ordered RuGa catalyst on carbon black converts nitrate into ammonia at low voltage, achieving high efficiency ...

Researchers have developed new means of recycling a common pollutant associated with groundwater and agricultural runoff: ...

Ever imagined that a tiny atomic switch might revolutionize how we tackle ammonia production? That's exactly the bombshell dropped by the team at Tokyo Metropo ...