Research Articles
Graphene Oxide: The Wonder Material Revolutionizing Catalysis
Explore how graphene oxide is transforming catalysis with its unique properties, applications in biodiesel production, environmental remediation, and pharmaceutical synthesis.
Asymmetric Oxygen Vacancies: The Secret Active Sites Supercharging Metal Oxide Catalysts
Discover how asymmetric oxygen vacancies in metal oxides are revolutionizing catalysis, enabling more efficient chemical reactions for environmental cleanup and energy conversion.
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 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.
The Azide Alchemists: A Radical New Approach to Streamlining Chemical Synthesis
Discover the groundbreaking catalytic method for direct C–H azidation using safe, commercial reagents with the C–H donor as the limiting reagent.
Seeing the Unseeable: How Positrons Illuminate the Hidden World of Surfaces and Catalysis
Explore how positrons and positronium are revolutionizing surface science and catalysis research through advanced imaging techniques.
The Invisible Spark: How Hot Electrons are Revolutionizing Chemistry and Catalysis
Explore how hot electrons are transforming surface chemistry and catalysis science, enabling more efficient energy conversion and chemical processes.
Palladium-Catalyzed Vicinal Difunctionalization: Revolutionizing Carborane Chemistry for Medicine and Materials
Explore how palladium-catalyzed vicinal difunctionalization is transforming carborane chemistry, enabling new applications in medicine and materials science.
Tiny Clusters, Big Impact: How Nickel Oxide Nanoclusters Revolutionize Chemical Synthesis
Explore how supported NiO nanoclusters are transforming chemical synthesis through efficient oxidative coupling of thiophenol to disulfides.