A dual-robot platform fully automates catalyst performance evaluation from sample loading to data collection, completing tests 45 times faster with 32% less variability.

(Nanowerk News) Researchers have developed a “self-driving” lab that uses artificial intelligence (AI) and automated systems to provide in-depth analyses of catalytic reactions used in chemical ...

The catalyst experiment always involves time-consuming and labor-intensive simple and repetitive work that extends into overtime and weekends. A remarkable breakthrough by a Korean research team has ...

A research team at the KIER have created a fully automated robotic platform that replaces human operators in catalyst ...

Prof. Daniel LAU, Chair Professor of Nanomaterials and Head of the Department of Applied Physics of PolyU (left) collaborated with the team of Prof YUNG Kai-leung, Director of PolyU’s Research Centre ...

Scientists say they have developed a “self-driving” lab that uses artificial intelligence (AI) and automated systems to provide in-depth analyses of catalytic reactions used in chemical research and ...

A technology has been developed that uses robots rather than humans to evaluate the performance of newly developed catalysts. By operating 45 times ...

Join us in St Andrews in June 2027 for this edition of the Faraday Discussion series. The Faraday Discussions are unique international discussion meetings that address current and emerging topics at ...

Seeking new solutions to more efficiently harvest and store solar energy, scientists from the U.S., China, and Germany have synthesized a new, dual-atom catalyst to serve as a platform for artificial ...