Explore how catalysis research groups are designing molecular marvels to build a more efficient and sustainable future through cleaner fuels, smarter materials, and efficient drugs.
Discover how catalytic reductive [4 + 1]-cycloadditions of vinylidenes and dienes are revolutionizing molecular construction in chemistry.
Explore how catalysis transforms chemical processes, drives sustainability, and addresses global challenges through innovative research and applications.
Discover how scientists are stabilizing single metal atoms and subnanometer clusters on graphite surfaces to create revolutionary catalysts for clean energy technologies.
Explore how modern surface science is transforming catalysis through atomic-level design, advanced characterization techniques, and structure-activity relationships.
Explore the fascinating world of transition metal catalysis and how it transforms carbonyl compounds into valuable chemicals, from perfumes to pharmaceuticals.
Explore how monodispersed metallic nanoparticles bridge homogeneous and heterogeneous catalysis, with atomic-scale characterization techniques revealing catalyst behavior under reaction conditions.
Explore the fascinating world of catalytic synthesis for optically active polycyclic heterocyclic compounds and their applications in pharmaceuticals and materials science.
Exploring the future directions of catalysis science - from single-atom catalysts to biomimetic approaches and sustainable energy solutions.
Explore Cynthia Friend's groundbreaking work in catalysis that's transforming chemical production and advancing sustainability through innovative science.