Discover how ex-situ TEM provides forensic-level evidence of structural changes in bimetallic nanoparticles during catalytic cycles, revealing secrets that could unlock cleaner energy technologies.
Exploring how carboxyl group placement and hydrogenation affect the burning rate of carboxylated nitrile butadiene rubber (XNBR) in extreme environments.
Exploring the quantum mechanics debate between Copenhagen interpretation and Many-Worlds Interpretation, with recent evidence from quantum computing experiments.
Exploring how nanoparticle metal oxides revolutionize environmental cleanup by degrading persistent toxic chemicals like chlorocarbons and organophosphonates.
Discover how ruthenium-catalyzed O- to S-alkyl migration revolutionizes carbon-sulfur bond formation under mild conditions through pseudoreversible radical pathways.
Discover how nitrogen-doped carbon materials are revolutionizing clean energy by replacing platinum in fuel cells through their active sites for oxygen reduction reaction.
Exploring how genetic engineering is transforming plants into efficient biofuel producers and bioproduct factories.
Discover how graphical abstracts are transforming science communication by making complex research visually accessible and shareable.
Revolutionary approach to plastic recycling through pendent group activation that enables bulk depolymerization of PMMA with >95% monomer recovery
Discover how CuO/MCM-41 nanocomposite is transforming wastewater treatment by effectively degrading quinoline without auxiliary oxidants.