Synthesis and properties of 1D Sm-doped CeO₂ composite nanofibers fabricated using a coupled electrospinning and sol-gel methodology

Engineering & Materials Science

• Electrospinning 100%
• Sol-gels 96%
• Nanofibers 96%
• Cerium oxide 93%
• Composite materials 42%
• Fibers 28%
• Fluorspar 27%
• Thermodynamic stability 16%
• Adsorption 15%
• Acids 14%
• Electron energy loss spectroscopy 14%
• Oxides 14%
• Inorganic polymers 13%
• Pyridine 13%
• High resolution transmission electron microscopy 13%
• Powders 13%
• Oxygen 13%
• Temperature programmed desorption 12%
• Infrared spectroscopy 11%
• Electron diffraction 10%
• Oxidation-Reduction 10%
• Calcination 10%
• Nitrates 10%
• X ray photoelectron spectroscopy 10%
• Surface structure 9%
• Thermogravimetric analysis 9%
• Crystalline materials 8%
• Ethanol 8%
• X ray diffraction 8%
• Molecules 8%
• Salts 7%
• Oxidation 7%
• Scanning electron microscopy 6%
• Fabrication 6%
• Polymers 6%
• Chemical analysis 5%
• Metals 5%
• Water 4%
• Electric potential 4%
• Temperature 3%

Chemical Compounds

• Nanofiber 63%
• Composite Material 36%
• Poly(vinylpyrrolidone) 29%
• Fiber 26%
• Fluorite 19%
• Inorganic Nitrate Salt 16%
• Cubic Space Group 13%
• Thermal Stability 10%
• Selected Area Electron Diffraction 9%
• Inert Atmosphere 9%
• Reducibility 9%
• Surface Composition 8%
• Adsorption 8%
• Dioxygen 7%
• Lewis Acid 7%
• Calcination 6%
• Metal Oxide 6%
• Desorption 6%
• Voltage 5%
• Thermogravimetric Analysis 5%
• Elemental Analysis 5%
• Pyridine 5%
• X-Ray Photoelectron Spectroscopy 5%
• IR Spectroscopy 5%
• Ethanol 5%
• Strength 5%
• Chemical Transformation 5%
• Probe 5%
• Scanning Electron Microscopy 4%
• Oxide 4%
• Purity 4%
• X-Ray Diffraction 4%
• Reduction 3%
• Oxidation Reaction 3%
• Mixture 3%
• Acid 2%
• Molecule 2%