Discover how zinc bromide (ZnBr₂) acts as a powerful catalyst in organic synthesis, enabling the creation of pharmaceuticals, fragrances, and materials through Lewis acid catalysis.
Discover how hot electrons are transforming catalysis science, enabling more efficient and precise chemical reactions through plasmonic catalysis.
Discover how Cyclic (Alkyl)-(Amino)Carbenes (CAACs) and Aryl-(Amino)Carbenes (AACs) paired with coinage metals are revolutionizing chemistry and drug synthesis.
Explore how microchannel catalysis and selective CO methanation are revolutionizing hydrogen fuel production for clean energy applications.
Explore the fascinating formation of iridium nanoparticle catalysts through kinetics and mechanism analysis in this engaging scientific article.
Explore the fascinating world of surface science and how atomic-level interactions power catalysis, nanotechnology, and modern innovations.
Discover how the proximal ligand in peroxidase enzymes acts as a molecular spring, enabling cellular detoxification through precise atomic interactions.
Explore how thiazole-based γ-peptide foldamers are transforming catalysis through molecular folding and enamine mechanisms
Explore how surface science techniques transformed catalysis from an art into a precise science, enabling atomic-level understanding of chemical reactions.
Discover how DRIFTS and XAS spectroscopy create molecular movies of fast catalytic processes for clean energy solutions.