Titanium oxide

Photocatalytic hybrid nanocomposites of metal oxide nanoparticles enhanced towards the visible spectral range

Environmental Engineering / Chemical Engineering / Crystallography / Nanoparticle / Scanning Electron Microscopy / Transmission Electron Microscopy / Nanotechnology / Comparative Study / Film / Heterogeneous Catalysis / Zinc Oxide / Photocatalysis / Sol Gel Process / High Resolution Transmission Electron Microscopy / Nanocomposite / Thin Film / Recovery / Titanium dioxide / Experimental Study / High Resolution / Spectrum / X ray diffraction / Wavelength / Titanium oxide / Photochemical Reaction / Active Optics / Transmission Electron Microscopy / Nanotechnology / Comparative Study / Film / Heterogeneous Catalysis / Zinc Oxide / Photocatalysis / Sol Gel Process / High Resolution Transmission Electron Microscopy / Nanocomposite / Thin Film / Recovery / Titanium dioxide / Experimental Study / High Resolution / Spectrum / X ray diffraction / Wavelength / Titanium oxide / Photochemical Reaction / Active Optics

Photocatalytic hybrid nanocomposites of metal oxide nanoparticles enhanced towards the visible spectral range

Environmental Engineering / Chemical Engineering / Crystallography / Nanoparticle / Scanning Electron Microscopy / Transmission Electron Microscopy / Nanotechnology / Comparative Study / Film / Heterogeneous Catalysis / Zinc Oxide / Photocatalysis / Sol Gel Process / High Resolution Transmission Electron Microscopy / Nanocomposite / Thin Film / Recovery / Titanium dioxide / Experimental Study / High Resolution / Spectrum / X ray diffraction / Wavelength / Titanium oxide / Photochemical Reaction / Active Optics / Transmission Electron Microscopy / Nanotechnology / Comparative Study / Film / Heterogeneous Catalysis / Zinc Oxide / Photocatalysis / Sol Gel Process / High Resolution Transmission Electron Microscopy / Nanocomposite / Thin Film / Recovery / Titanium dioxide / Experimental Study / High Resolution / Spectrum / X ray diffraction / Wavelength / Titanium oxide / Photochemical Reaction / Active Optics

Dielectric properties of polymer nanoparticle composites

Engineering / Morphology / Block Copolymer / Polymer / Nanocomposite / Titanium dioxide / Dielectric Properties / CHEMICAL SCIENCES / Dielectric Loss / Titanium oxide / Dielectric Permittivity / Group Dynamic / Titanium dioxide / Dielectric Properties / CHEMICAL SCIENCES / Dielectric Loss / Titanium oxide / Dielectric Permittivity / Group Dynamic

Ultra-porous titanium oxide scaffold with high compressive strength

Materials Engineering / Biomedical Engineering / Tissue Engineering / Scanning Electron Microscopy / PHOTOELECTRON SPECTROSCOPY / Titanium / Bone Regeneration / Ceramics / Porosity / Compressive Strength / Titanium dioxide / Pore Size / Rheological properties / Titanium oxide / Osteogenesis / Materials Testing / Process Parameters / X Ray Microtomography / Biocompatible Materials / Titanium / Bone Regeneration / Ceramics / Porosity / Compressive Strength / Titanium dioxide / Pore Size / Rheological properties / Titanium oxide / Osteogenesis / Materials Testing / Process Parameters / X Ray Microtomography / Biocompatible Materials

Guided self-assembly of nanostructured titanium oxide

Small Angle X Ray Scattering / Self Assembly / Nanotechnology / Multidisciplinary / Surface Roughness / Nanowires / Wide Angle X-Ray Scattering / Dielectric Properties / Thermal Analysis / Scanning Electron Microscope / Titanium oxide / Atomic Force Microscope / Transmission Electron Microscope / Electric Field / Ethylene Glycol / Cetyl Trimethyl Ammonium Bromide / Nanowires / Wide Angle X-Ray Scattering / Dielectric Properties / Thermal Analysis / Scanning Electron Microscope / Titanium oxide / Atomic Force Microscope / Transmission Electron Microscope / Electric Field / Ethylene Glycol / Cetyl Trimethyl Ammonium Bromide

Ultra-porous titanium oxide scaffold with high compressive strength

Materials Engineering / Biomedical Engineering / Tissue Engineering / Scanning Electron Microscopy / PHOTOELECTRON SPECTROSCOPY / Titanium / Bone Regeneration / Ceramics / Porosity / Compressive Strength / Titanium dioxide / Pore Size / Rheological properties / Titanium oxide / Osteogenesis / Materials Testing / Process Parameters / X Ray Microtomography / Biocompatible Materials / Titanium / Bone Regeneration / Ceramics / Porosity / Compressive Strength / Titanium dioxide / Pore Size / Rheological properties / Titanium oxide / Osteogenesis / Materials Testing / Process Parameters / X Ray Microtomography / Biocompatible Materials

Composite n–p semiconducting titanium oxides as gas sensors

Materials Engineering / Analytical Chemistry / Titanium / Gas Sensor / Particle Size / Titanium oxide / Experimental Data / Titanium oxide / Experimental Data

Optical properties of nano-structured dye-sensitized solar cells

Engineering / Light Scattering / Dye Sensitized Solar Cells / Physical sciences / Dye Sensitized Solar cell / Nanostructure / Decode-And-Forward / Optical Properties / Multiple Scattering / CHEMICAL SCIENCES / Average Path Length / Photoelectrochemical Cell / Radiative Transfer / Titanium oxide / Nanostructure / Decode-And-Forward / Optical Properties / Multiple Scattering / CHEMICAL SCIENCES / Average Path Length / Photoelectrochemical Cell / Radiative Transfer / Titanium oxide

Polydimethylsiloxane/silica/titania composites prepared by solvent-free sol�gel technique

Materials Engineering / Composites / Adsorption / Composition / Dynamics / Sol Gel Process / Silica / Crosslinking / Contact angle / Composite Material / Dielectric Properties / Thermal Stability / Humidity / Polydimethylsiloxane / Titanium oxide / Condensation / Sol- Gel Science / Sol gel / Hydrolysis / Water Vapor / Sol Gel Process / Silica / Crosslinking / Contact angle / Composite Material / Dielectric Properties / Thermal Stability / Humidity / Polydimethylsiloxane / Titanium oxide / Condensation / Sol- Gel Science / Sol gel / Hydrolysis / Water Vapor

Microstructural and photocatalytic properties of sol–gel-derived vanadium-doped mesoporous titanium dioxide nanoparticles

Materials Engineering / Microstructure / Structure / Nanoparticle / Scanning Electron Microscopy / Morphology / Nanoparticles / Transmission Electron Microscopy / Heterogeneous Catalysis / Block Copolymer / Photocatalysis / Porosity / Sol Gel Process / Titanium dioxide / Pore Size / Band Gap / Non crystalline solids / Methylene Blue / Crystallite Size / Surface Area / Wavelength / Microstructures / UV light / Titanium oxide / Sol Gel Method / Poloxamer / Morphology / Nanoparticles / Transmission Electron Microscopy / Heterogeneous Catalysis / Block Copolymer / Photocatalysis / Porosity / Sol Gel Process / Titanium dioxide / Pore Size / Band Gap / Non crystalline solids / Methylene Blue / Crystallite Size / Surface Area / Wavelength / Microstructures / UV light / Titanium oxide / Sol Gel Method / Poloxamer

Copyright © 2017 DADOSPDF Inc.