Research Articles
The Precision Revolution: How Molecular Architecture is Transforming Catalysis
Discover how precise functionalization of PPH dendrimers enhances catalytic performance compared to stochastic approaches in nanotechnology.
Catalytic Foldamers: Nature's Blueprint for the Future of Catalysis
Explore how catalytic foldamers are revolutionizing catalysis by mimicking enzyme efficiency with synthetic robustness and adaptability.
The Cellular Alchemists: Unlocking the Secrets of Enzyme Action
Explore the fascinating world of enzymes - biological catalysts that power life. Learn about enzyme theory, kinetics, and groundbreaking research.
Organic Synthesis Highlights III: Where Art Meets Science in Molecular Architecture
Explore the cutting-edge methodologies and synthetic strategies in modern organic synthesis with Organic Synthesis Highlights III, featuring sustainable catalysis, AI-driven optimization, and molecular architecture innovations.
The Hidden Shape of Catalysis: How Nanoparticle Geometry Revolutionizes Chemical Reactions
Discover how nanoparticle shape influences catalytic performance in Suzuki-Miyaura cross-coupling reactions and other chemical processes.
The Molecular LEGO Kit: Building a Promising Scaffold from Simple Strings of Carbon
Discover how chemists use gold catalysts to efficiently synthesize the 3,3'-bipyrrole scaffold from diyne molecules, enabling advances in drug discovery and materials science.
The Invisible Kitchen Helpers: How Enzymes Supercharge Our Food
Discover how enzymes revolutionize food production through specific catalytic actions, from bread-making to cheese production and juice clarification.
Why Size Matters: The Tiny World of Platinum Catalysts
Exploring how nanoparticle size dramatically affects platinum's catalytic performance in hydrogenation reactions
The Molecular Matchmakers: Forging Stronger Medicines with Fluoro-Boosted Chemicals
Discover how transition-metal-catalyzed reactions with trifluoro diazo compounds are revolutionizing drug discovery by adding powerful trifluoromethyl groups to complex molecules.