A new approach to advanced recycling combines heterogeneous catalysis with electromagnetic induction, enabling the conversion ...

In chemical processes for producing pharmaceuticals, catalysts are a core technology that determines production speed and ...

A new class of artificial intelligence models is cutting the time needed to identify promising catalytic materials from weeks ...

Software simulates 370,000 steps in under 100 hours, potentially cutting demand for time on supercomputers by orders of ...

Turning carbon dioxide into useful chemicals is a key strategy for building closed-loop systems, a key step in mitigating ...

Formate is a key chemical building block widely used across industries. Converting carbon dioxide (CO2) into formate via hydrogenation provides a promising approach to transform a greenhouse gas into ...

Single-atom catalysts (SACs) comprise individual metal atoms—such as palladium (Pd), or platinum (Pt)—anchored on a high-surface-area solid support, which both isolates the metal and influences its ...

Researchers have outlined a bold new roadmap for harnessing heterogeneous catalysis to destroy per- and polyfluoroalkyl substances (PFAS), the so-called 'forever chemicals' that have contaminated ...

The process of catalysis—in which a material speeds up a chemical reaction—is crucial to the production of many of the chemicals used in our everyday lives. But even though these catalytic processes ...

Researchers use rapid thermal processing to convert ZIF-67 into MOF-derived carbon nanotube catalysts with nickel-cobalt ...