Research Articles
Molecular Origami: How Titanium Chemistry is Revolutionizing Cyclopropane Synthesis
Discover how titanium-catalyzed diastereoselective cyclopropanation is transforming organic synthesis of strained ring molecules with unprecedented precision and efficiency.
Light-Driven Molecular Origami: How 4π-Photocyclization Reshapes Organic Synthesis
Explore how 4π-photocyclization revolutionizes organic synthesis through light-driven molecular transformations, creating complex structures with precision.
Powering Up Organic Synthesis: The Electrochemical Revolution in C-H Amination
Explore the electrochemical revolution in C-H amination, a sustainable approach replacing toxic reagents with electricity for creating crucial aryl C-N bonds in pharmaceuticals and materials.
Flow Chemistry: Revolutionizing Molecular Assembly Lines
Discover how flow chemistry is transforming multistep organic synthesis, enabling continuous molecular manufacturing with enhanced safety, efficiency, and sustainability.
The Achmatowicz Rearrangement: How a Chemical Reaction Transformed Molecular Design
Exploring the 50-year history and applications of the Achmatowicz rearrangement, a transformative chemical reaction in organic synthesis.
The Molecular LEGO Masters: Building Rings to Fight Cancer and Light Up Screens
Explore how benzannulation strategies enable the synthesis of carbazoles, indolocarbazoles, benzocarbazoles, and carbolines for medical and technological applications.
The Vinylidenecyclopropane Gold Rush: How Tiny Rings Are Revolutionizing Molecular Architecture
Explore how vinylidenecyclopropanes (VDCPs) are transforming organic synthesis through transition-metal catalysis, enabling complex molecular architectures in single reaction steps.
The Molecular Matchmakers: Crafting Enamides and Enol Esters to Forge New Medicines & Materials
Exploring how modern organic synthesis uses enamides and enol esters as building blocks for pharmaceuticals and advanced materials through catalytic methods.