A facile process to prepare one dimension VO₂ nanostructures with superior metal-semiconductor transition

Engineering & Materials Science

• Nanobelts 100%
• Vanadium dioxide 84%
• Nanostructures 65%
• Semiconductor materials 47%
• Metals 34%
• Vanadium pentoxide 17%
• Annealing 17%
• Differential scanning calorimetry 13%
• Phase transitions 12%
• High resolution transmission electron microscopy 9%
• Temperature 9%
• Spectrophotometry 9%
• Nanorods 8%
• Composite coatings 7%
• Crystallinity 7%
• Acrylics 6%
• Doping (additives) 6%
• Superconducting transition temperature 6%
• Tungsten 6%
• X ray diffraction 5%
• Resins 5%
• Glass 4%
• Scanning electron microscopy 4%
• Modulation 4%

Chemical Compounds

• Metal-Semiconductor Transition 87%
• Annealing 42%
• Dimension 40%
• Nanomaterial 33%
• Hydrothermal Method 27%
• Differential Scanning Calorimetry 25%
• Acrylic Resin 23%
• Phase Transition Temperature 19%
• Tungsten 16%
• Spectrophotometry 16%
• Nanorod 15%
• Crystallinity 13%
• Glass 12%
• Coating Agent 10%
• Scanning Electron Microscopy 10%
• Purity 9%
• Composite Material 8%
• X-Ray Diffraction 8%
• Time 6%

Physics & Astronomy

• metals 27%
• annealing 24%
• heat measurement 23%
• acrylic resins 18%
• scanning 16%
• spectrophotometry 15%
• nanorods 13%
• crystallinity 11%
• temperature 11%
• tungsten 11%
• transition temperature 10%
• coatings 9%
• modulation 8%
• transmission electron microscopy 8%
• scanning electron microscopy 8%
• composite materials 8%
• high resolution 8%
• glass 7%
• diffraction 7%
• x rays 6%