In a study appearing in Nature Catalysis, researchers from the Inorganic Chemistry Department of the Fritz Haber Institute ...

More efficient and sustainable energy conversion technologies, among other applications, hinge on lowering the amount of ...

The field of catalysis, particularly in oxidation reactions, occupies a central role in modern chemistry and industrial processes. These reactions underpin energy conversion, environmental remediation ...

Catalysis is a fundamental process in chemical science whereby a catalyst accelerates a chemical reaction without itself being consumed. By providing an alternative reaction pathway with a lower ...

Given the ubiquitous presence of water during catalyst synthesis, storage, and application, interactions between water and molecular sieves, along with their consequent effects on frameworks and ...

The discipline of Catalysis and Reaction Engineering (CRE) seeks to control and understand the networks of reactions that occur in ‘reactors’ ranging from cellular compartments up to world-scale ...

Platinum has long powered hydrogenation reactions across the chemical industry. But its cost and limited supply have pushed ...

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

Porous molecular sieve catalysts, including aluminosilicate zeolites and silicoaluminophosphate (SAPO) molecular sieves, are widely used in ...

Laboratories turned to a smart workaround when COVID‑19 testing kits became scarce in 2020. They mixed samples from several ...

Researchers demonstrate a chemical reaction produced through an intermediary created by a separate chemical reaction, findings that could impact environmental remediation and fuel production. A ...

For the first time, chemists have developed a titanium catalyst that makes light usable for selective chemical reactions. It provides a cost-effective and non-toxic alternative to the ruthenium and ...