Research Articles
Tartaric Acid-Dimethyl Urea Mix: The Secret Weapon for Greener Chemistry
Explore how the low melting mixture of tartaric acid and dimethyl urea is revolutionizing green organic synthesis with its multifunctional capabilities.
The Silent Revolution: How Chemistry is Breaking Free from Metals
Exploring breakthroughs in metal-free synthesis that promise cheaper medicines, cleaner industrial processes, and fundamentally new ways to build matter.
The Silent Scissors: How Rusty Iron Unlocks Molecular Cages
Discover how ferric chloride enables solvent-free catalytic cleavage of oximes and hydrazones, revolutionizing chemical synthesis with green chemistry principles.
The Invisible Glue: How 2D Organic-Inorganic Hybrids are Forging the Future of Tech
Exploring the revolutionary potential of two-dimensional organic-inorganic van der Waals hybrids in quantum technologies and advanced materials.
Metal Magic: How Asymmetric Catalysts Craft Molecules with Perfect Handedness
Exploring how heterogeneous enantioselective metal catalysis enables precise synthesis of chiral molecules for pharmaceuticals and sustainable chemistry.
The Silent Revolution: How Metal-Free Chemistry is Mastering Molecular Geometry
Exploring the breakthrough of metal-free stereoconvergent C-H borylation of enamides and its impact on precise molecular synthesis.
The Silent Revolution: How Difluorocarbene is Reshaping Drug Discovery
Explore how difluorocarbene, once a chemical curiosity, is now enabling breakthroughs in pharmaceutical design through innovative fluorination chemistry.
The Silent Spark: How Electrochemistry is Revolutionizing Sulfur-Based Molecules
Discover how electrochemistry is transforming the synthesis of sulfur-based molecules, enabling greener pharmaceuticals, advanced batteries, and sustainable materials.
The Molecular Chess Game: How a Metal-Organic Framework Surprised Scientists with a Ligand's Secret Role
Discover how the discovery of ligand redox non-innocence in Mn-MOF-74 revolutionized our understanding of metal-organic frameworks and their catalytic potential.
Click, Connect, Conquer: Biofunctionalizing Molecular Cages with Precision
Exploring the cutting-edge technology of biofunctionalizing Metal-Organic Polyhedra using click chemistry for medical and sensing applications