Explore the revolutionary field of ultra-thin zinc oxide films on metal substrates and their extraordinary atomic-scale properties.
Explore how the reprecipitation method creates organic nanocrystals that are revolutionizing technology from flexible screens to medical imaging.
Discover how model nanoparticles are revolutionizing catalysis, enabling precise control over chemical reactions for green energy and sustainable manufacturing.
Comprehensive review on stable metal nanoparticles using ionic liquids, supported ionic liquids, and poly(ionic liquids) for catalysis, electronics and biomedical applications
Discover how X-ray scattering reveals the hidden architecture of mesoporous silica, a nanomaterial with surface areas larger than football fields.
Discover how nanotechnology and cerium-modified catalysts are revolutionizing air pollution control by efficiently oxidizing CO and VOCs in exhaust systems.
Explore how zeta potential controls nanoparticle stability and behavior in medicine, technology, and the environment.
Explore how scanning tunnelling microscopy enables atomic-scale observation of catalytic processes, revolutionizing our understanding of chemical reactions.
Explore China's leadership in nanomedicine, from Alzheimer's breakthroughs to cutting-edge research and future applications in healthcare.
Explore the fascinating world of Layered Double Hydroxides (LDHs) - versatile materials revolutionizing medicine, environmental cleanup, and energy storage.