Research Articles
The Green Hydrogen Puzzle: Cracking the Code with Better Bubbles
Exploring how electrode fabrication methods impact the performance and durability of green hydrogen production through water electrolysis.
From Banana Stems to Biofuel: A Green Recipe for Clean Energy
Discover how banana tree waste is being transformed into powerful catalysts for biodiesel production through innovative green chemistry.
The Silent Matchmaker: How Indium Bromide Crafts the Molecules of Modern Life
Discover how Indium Bromide (InBr₃) serves as a powerful catalyst in organic chemistry, enabling efficient and selective molecular synthesis under environmentally friendly conditions.
The Hidden Architecture of Green Fuel: How Ionomer Dispersion Builds Better Catalysts
Discover how ionomer dispersion creates efficient catalyst layers for green hydrogen production through advanced 3D microstructure analysis.
Taming the Flame: How a Metal Gauze Turns Natural Gas into Treasure
Discover how partial oxidation with silver gauze catalysts transforms natural gas into valuable olefins and oxygenates, revolutionizing chemical production.
Spark to Flame: How a Pinch of Catalyst Supercharges the Hydrogen Revolution
Explore how catalyst percentage in electrolysis dramatically increases hydrogen production volume and improves flame characteristics for a cleaner energy future.
The Catalyst's Dance: How Scientists Are Taming Carbon Monoxide
Explore the fascinating science behind selective carbon monoxide conversion, from adsorption mechanisms to cutting-edge catalyst development for cleaner energy solutions.
Catalyst Codesign: Breaking the Oxygen Evolution Barrier
How multidisciplinary codesign is overcoming fundamental challenges in oxygen evolution reaction catalysts for clean hydrogen production
The Secret Recipe for Cleaner Gasoline: How Scientists Are Tweaking Tiny Cages to Fuel Our Future
Discover how Al-SBA-16-supported cobalt catalysts are revolutionizing gasoline production through Fischer-Tropsch synthesis, enabling cleaner fuels from renewable sources.
The Invisible Shield That Fails: How Rust-Like Growth Kills the World's Most Efficient CO Cleanup Catalysts
Study of ruthenium catalyst deactivation during CO oxidation through bulk oxide formation, revealed by ambient pressure XPS techniques.