Anatase TiO₂ co-doped with silver and silica for destruction of organic dye and bacteria

Engineering & Materials Science

• Sols 100%
• Titanium dioxide 94%
• Dyes 81%
• Bacteria 80%
• Silver 78%
• Silica 74%
• Photocatalytic activity 73%
• Irradiation 59%
• Ultraviolet radiation 56%
• High resolution transmission electron microscopy 23%
• Dynamic light scattering 23%
• Silver nanoparticles 20%
• TiO2 nanoparticles 20%
• X ray photoelectron spectroscopy 17%
• Molar ratio 17%
• Particle size analysis 16%
• Spectroscopy 16%
• Precipitates 14%
• Transmission electron microscopy 14%
• X ray diffraction 14%
• Electron microscopes 13%
• Catalysts 12%
• Scanning 11%

Physics & Astronomy

• anatase 77%
• bacteria 77%
• destruction 70%
• dyes 62%
• silver 59%
• silicon dioxide 55%
• irradiation 26%
• nanoparticles 13%
• methylene blue 13%
• transmission electron microscopy 13%
• particle size distribution 11%
• catalysts 9%
• x rays 9%
• precipitates 8%
• light scattering 8%
• transmittance 8%
• photoelectron spectroscopy 8%
• electron microscopes 8%
• scanning 6%
• high resolution 6%
• diffraction 5%
• spectroscopy 5%

Chemical Compounds

• Titanium Dioxide 59%
• Sol 47%
• Dye 45%
• Solgel Method 32%
• Light Irradiation 27%
• Photocatalytic Activity 24%
• Scanning Transmission Electron Microscopy 11%
• Nanoparticle 10%
• Transmittance 10%
• Particle Size Distribution 10%
• Photon Correlation Spectroscopy 9%
• Methylene Blue 8%
• X-Ray Photoelectron Spectroscopy 7%
• Spectroscopy 6%
• Electron Particle 5%
• X-Ray Diffraction 5%
• Liquid Film 4%
• Catalyst 4%