Research Articles
Negishi Coupling: The Nobel-Winning Reaction Shaping Modern Chemistry
How a zinc-powered chemical reaction quietly builds the molecules behind life-saving drugs and cutting-edge materials.
The Versatile Furan: From Plant Waste to Medical Breakthroughs
Exploring the diversity-oriented approach to furan building blocks and their applications in organic synthesis, materials science, and medicinal chemistry.
The Chemistry of Bioconjugates: Building Tomorrow's Medicines, One Molecular Link at a Time
Explore how bioconjugation chemistry is revolutionizing medicine through targeted therapies, vaccines, and diagnostic tools by creating powerful hybrid molecules.
X-Ray Snapshots: How Scientists Are Filming Chemistry Inside Molecular Cages
Discover how scientists use metal-organic frameworks and X-ray crystallography to observe chemical reactions at the molecular level in real-time.
Rewriting the Molecules of Life: The Era of Skeletal Editing
Discover how skeletal editing enables chemists to perform atomic-scale surgery on molecular frameworks, transforming medicine and materials science.
The Fluorine Revolution: New Chemical Tools Changing Medicine
Explore how fluorine chemistry is revolutionizing pharmaceutical development through innovative nucleophilic fluorination methods.
The Silent Swap: How Scientists Are Redesigning Molecules One Atom at a Time
Explore the revolutionary technique of late-stage C–H deuteration that allows chemists to swap hydrogen atoms with deuterium in complex molecules, transforming pharmaceutical development.
The Reusable Catalyst Revolution: Making Chemistry Sustainable
Exploring innovative approaches to catalyst reuse in synthetic organic chemistry for sustainable pharmaceutical manufacturing and environmental applications.
AI Revolution in Chemistry: From Spectral Fingerprints to Reaction Pathways
Explore how artificial intelligence is transforming chemistry through automated spectral interpretation and reaction simulation, accelerating drug discovery and materials science.
Cracking the Carbene Code: The Safer, Faster Future of Medicine and Materials
Discover the groundbreaking method for preparing metal carbene complexes that revolutionizes chemical synthesis for medicine and materials science.