Technologies that convert carbon dioxide (CO₂) emitted from factories and power plants into useful chemical feedstocks are considered key to achieving carbon neutrality. However, rapid degradation of ...

A technology has been developed that uses robots rather than humans to evaluate the performance of newly developed catalysts. By operating 45 times faster than manual work while also improving ...

With the aim to precisely understand its function, researchers from the Inorganic Chemistry Department and Interface Science ...

Rhodium is one of the most powerful catalytic metals known to chemistry. Small amounts of it can drive reactions that produce ...

The structure of the Ni/MS-4.8 catalyst: (a) schematic illustration of the synthesis procedures, (b) HAADF-STEM, (c) TEM, (d, e) HRTEM image and (f) EDS mapping images. Recently, the research team led ...

A technology has been developed that uses robots rather than humans to evaluate the performance of newly developed catalysts. By operating 45 times faster than manual work while also improving ...

Regulatory and legislative requirements such as the Clean Air Interstate Rule (CAIR) NO X emission caps have driven the need to develop NO X control technologies for existing coal-fired power plants.