Research Articles
The Surface Master: How Paul H. Emmett Mapped the Molecular World
Explore the life and scientific contributions of Paul H. Emmett, developer of the groundbreaking BET method for surface area measurement that transformed catalysis science.
Rhodium-Catalyzed C–H Activation: The Silent Revolution in Molecular Assembly
Explore how rhodium-catalyzed C–H bond activation is transforming chemical synthesis through selective molecular assembly with reduced environmental impact.
The Golden Key to Tomorrow's Tech: How Scientists Are Making Perfect Gold Crystals Affordable
Discover how scientists are revolutionizing materials science with low-cost, wafer-scale Au(111) single crystals for epitaxy of two-dimensional layered materials.
The Larger Linear N-Heteroacenes: The Molecular Revolution Behind Flexible Electronics
Explore the revolutionary world of larger linear N-heteroacenes - organic semiconductors transforming flexible electronics through molecular engineering.
The Boron Revolution: How Dendrimers and Nanostructures Are Powering the Next Generation of Cancer Therapy
Exploring how dendrimers and nanostructures are revolutionizing cancer therapy through precise boron delivery in Boron Neutron Capture Therapy (BNCT).
The Invisible World Where Chemistry Shapes Our Future: The Power of Surface Reactions
Explore how chemical reactions on surfaces drive technologies in catalysis, gas sensing, desalination and Li-ion batteries through surface science principles.
Turning Greenhouse Gases into Green Fuel: The Catalyst Revolution
Explore groundbreaking advances in catalyst design for transforming CO2 and methane into valuable syngas through dry reforming of methane (DRM).
The Dice Roll of Catalyst Creation: How Scientists Are Taming Atomic Chaos
Exploring how scientists are developing precise M-N-C catalysts to replace platinum in clean energy technologies through atomic-level engineering.
The Secret Life of a Deadly Pigment: How Arsenic Sulfides Transform in Masterpieces
Discover how arsenic sulfide pigments undergo complex chemical transformations in historic paintings, revealed through cutting-edge synchrotron technology.
Breaking the Mold: How Scientists Are Making Chemical Analysis Safer and More Precise
Discover how LA-ICP-MS technology is revolutionizing chemical analysis of silica powders by eliminating dangerous hydrofluoric acid while improving precision.