Research Articles
The 2,000-Hour Catalyst: A Breakthrough in Turning CO₂ into Fuel
Scientists have created a catalyst that efficiently breaks down carbon dioxide for thousands of hours, enabling factories to recycle emissions into fuel.
Harnessing Light to Boost Fuel Cells: The Plasmonic Power of Palladium-Silver Nanotubes
Discover how plasmonic-electrocatalytic synergy in palladium-silver nanotubes revolutionizes methanol oxidation for cleaner energy solutions.
The Art of Transforming Carbon Dioxide: Crafting Catalysts for Valuable Chemicals
Explore how defect-engineered copper catalysts are revolutionizing CO2 conversion into valuable C2+ chemicals through electrocatalysis.
Titanium Oxycarbide: The Nano-Scaffold Supercharging Fuel Cells
Discover how titanium oxycarbide is revolutionizing fuel cell technology by enhancing ethanol oxidation efficiency through advanced nano-scaffold structures.
The Nano-Orange that Revolutionizes Clean Energy: How Platinum and Palladium Team Up
Discover how localized Pd overgrowth on cubic Pt nanocrystals enhances formic acid oxidation for cleaner energy solutions through advanced nanotechnology.
Turning Pollution into Plastic: The Nano-Sized Factories Making Ethylene from Thin Air
Discover how a novel mesoporous copper oxide catalyst with palladium clusters efficiently converts CO2 into ethylene, paving the way for sustainable plastic production.
The Nano-Alchemists: How Platinum Cubes Coated with Palladium Spots Revolutionize Fuel Cells
Discover how precisely engineered Pt nanocubes with Pd overgrowth solve the formic acid fuel cell puzzle through nanoscale architecture.
Molecular Blockbusters: Filming Chemical Reactions at the Nanoscale to Build Better Catalysts
Discover how nanoscale electrochemical movies with synchronous topographical mapping are revolutionizing catalyst design by revealing atomic-scale reaction dynamics.