Nanosecond pulsed laser deposition of TiO2: nanostructure and morphology of deposits and plasma diagnosis

Engineering & Materials Science

• Pulsed laser deposition 100%
• Nanostructures 79%
• Deposits 63%
• Plasmas 59%
• Wavelength 56%
• Oxygen 39%
• Substrates 34%
• Crystalline materials 33%
• Q switched lasers 29%
• Optical emission spectroscopy 27%
• Laser beam effects 24%
• Spectral resolution 23%
• Neodymium lasers 21%
• Optical resolving power 21%
• Titanium dioxide 21%
• Atomic force microscopy 20%
• Ablation 19%
• X ray photoelectron spectroscopy 19%
• Crystallinity 19%
• Surface structure 19%
• Nanoparticles 15%
• X ray diffraction 15%
• Vacuum 14%
• Thermodynamics 13%
• Temperature 12%
• Scanning electron microscopy 12%
• Chemical analysis 10%
• Gases 9%
• Monitoring 9%

Physics & Astronomy

• pulsed laser deposition 61%
• deposits 58%
• rutile 50%
• plumes 33%
• wavelengths 30%
• oxygen 29%
• irradiation 20%
• optical emission spectroscopy 18%
• Q switched lasers 17%
• anatase 17%
• temporal resolution 16%
• spectral resolution 16%
• particulates 16%
• ablation 15%
• x rays 14%
• YAG lasers 14%
• crystallinity 14%
• low pressure 13%
• photoelectron spectroscopy 13%
• spatial resolution 12%
• atomic force microscopy 12%
• thermodynamics 10%
• nanoparticles 10%
• scanning electron microscopy 10%
• vacuum 10%
• expansion 10%
• temperature 9%
• diffraction 8%
• gases 8%
• lasers 7%

Chemical Compounds

• Pulsed Laser Deposition 85%
• Rutile 47%
• Wavelength 46%
• Nanomaterial 40%
• Plasma 40%
• Dioxygen 23%
• Optical Emission Spectroscopy 20%
• Nanofilm 19%
• Ablation 18%
• Surface Structure 15%
• Size Distribution 14%
• Titanium Dioxide 13%
• Vacuum 12%
• Atomic Force Microscopy 12%
• Crystallinity 12%
• X-Ray Photoelectron Spectroscopy 11%
• Thermodynamics 10%
• Scanning Electron Microscopy 9%
• Pressure 9%
• Gas 8%
• Nanoparticle 8%
• X-Ray Diffraction 8%
• Liquid Film 7%