Explore the fascinating world of pincer ligands - molecular structures that revolutionized catalysis through their unique three-pronged grip on metal atoms.
Explore metal-mediated halogen exchange, a precise chemical process enabling atomic-level molecular modifications for pharmaceuticals and materials science.
Discover how ion soft landing technology enables precise molecular deposition for advanced energy storage and catalysis research.
Explore recent advances in zeolite chemistry and catalysis, from hierarchical structures to water-activated catalytic sites, shaping a cleaner industrial future.
Discover how scientists captured a pre-transition-state mimic of adenosine deaminase, revealing the molecular mechanisms of enzymatic catalysis and advancing our understanding of immune system function.
Explore how gold and gold-palladium branched nanocrystals are revolutionizing plasmonic catalysis and solar energy conversion through advanced nanoscale engineering.
Explore how structural engineering of 2D nanomaterials is transforming energy storage and catalysis through atomic-scale customization.
Explore how graphene oxide is revolutionizing catalysis beyond nanotechnology, offering sustainable alternatives to traditional metal catalysts in chemical synthesis and environmental applications.
Discover how hydroaminoalkylation is revolutionizing chemical synthesis by directly connecting amines and hydrocarbons in a single catalytic step.
Explore the fascinating world of shape-selective zeolite catalysis and how these molecular gatekeepers are transforming chemical processes for a sustainable future.