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Journal of Colloid And Interface Science, ISSN 0021-9797, 03/2017, Volume 489, pp. 85 - 91
The mesh-like porous tungsten oxide hydrate film exhibited a wide optical modulation of 32% at 632 nm, fast coloring and bleaching response speed of 7.8 s and... 
Tungsten oxide hydrate | Laser ablation in liquid | Electrophoresis | Electrochromic properties | Colloidal nanocrystals | THIN-FILMS | TRIOXIDE | PERFORMANCE | DEPOSITION | CHEMISTRY, PHYSICAL | NANOSHEETS | NANORODS | NANOPARTICLES | DEVICES | SMART WINDOWS | SPECTRA | Tungsten compounds | Tungsten | Hydrogen peroxide
Journal Article
Journal of Electroanalytical Chemistry, ISSN 1572-6657, 09/2018, Volume 824, pp. 9 - 13
Although lithium‑sulfur (Li–S) batteries exhibit high specific energy densities and are, therefore, promising next-generation energy storage systems, their... 
Lithium‑sulfur batteries | Core-shell structure | Cathode | Co-precipitation | Colloidal coating | ELECTROCHEMISTRY | CHEMISTRY, ANALYTICAL | ION BATTERIES | PERFORMANCE | Lithium-sulfur batteries | Povidone | Sulfur compounds | Electrical conductivity | Tungsten | Batteries | Precipitation (Meteorology) | Tungsten compounds | Electric properties
Journal Article
Journal of Electroanalytical Chemistry, ISSN 1572-6657, 09/2018, Volume 824, p. 9
Although lithium‑sulfur (LiS) batteries exhibit high specific energy densities and are, therefore, promising next-generation energy storage systems, their... 
Electrochemical analysis | Thiosulfates | Acidic oxides | Storage systems | Lithium | Polysulfides | Tungsten oxides | Polyvinylpyrrolidone | Batteries | Dissolution | Coated particles | Electrical currents | Electrode materials | Electrical resistivity | Oxide coatings | Electrolytes | Sulfur | Sodium thiosulfate | Cathodes | Energy storage
Journal Article
AIP Advances, ISSN 2158-3226, 03/2017, Volume 7, Issue 3, pp. 35004 - 035004-5
The solid state electrochromic device composed of tungsten oxide hydrate (WO3(H2O)0.33) and tin oxide hydrate (Sn(O,OH)) has been constructed by anodic... 
NANOSCIENCE & NANOTECHNOLOGY | PHYSICS, APPLIED | WO3 | FILMS | ELECTRODEPOSITION | MATERIALS SCIENCE, MULTIDISCIPLINARY | Tin oxides | Solid state | Tin | Electrochromic cells | Chemical reactions | Electrochromism | Tungsten oxides
Journal Article
Journal of Applied Physics, ISSN 0021-8979, 03/2007, Volume 101, Issue 6, pp. 064313 - 064313-5
Tungsten oxides are of interest as an oxidant for metals in metastable intermolecular composites (MICs), a reactive nanoscale powder useful for such... 
PHYSICS, APPLIED | Diffraction | Analysis | X-rays | Scattering (Physics) | Chemical properties | Hydration (Chemistry) | Observations | Tungsten compounds
Journal Article
Ceramics International, ISSN 0272-8842, 08/2012, Volume 38, Issue 6, pp. 4495 - 4500
Tungsten oxide hydrates crystallites with a diversity of morphologies were successfully synthesized by employing peroxo-polytungstic acid as the precursor via... 
D. Transition metal oxides | Hydrothermal process | Morphology evolution | A. Grain growth | VISIBLE-LIGHT | IRRADIATION | EVOLUTION | Grain growth | GROWTH | Transition metal oxides | NANOSHEETS | WO3 | MATERIALS SCIENCE, CERAMICS | PHOTOCATALYST | Transition metal compounds | Tungsten | Crystals | Oxides | Universities and colleges | Structure | Tungsten compounds | Hydrates
Journal Article
Materials Letters, ISSN 0167-577X, 2008, Volume 62, Issue 15, pp. 2297 - 2300
Tungsten oxide hydrate nanoplates with expanded surface area have been synthesized through the acid treatment of tungstate−aluminum keggin nanocomposite.... 
Tungsten oxide hydrate | Optical materials and properties | Selective etching | Nanoplates | Nanocomposites | optical materials and properties | nanoplates | PHYSICS, APPLIED | selective etching | MATERIALS SCIENCE, MULTIDISCIPLINARY | nanocomposites | tungsten oxide hydrate | Tungsten compounds | Tungsten | Aluminum oxide
Journal Article
Solid State Ionics, ISSN 0167-2738, 1996, Volume 84, Issue 3, pp. 205 - 211
Tungsten oxide hydrates WO3 . nH(2)O are formed upon the acidification of tungstate aqueous solutions. Different amorphous or crystalline phases can be... 
Thin films | Tungsten oxide hydrates | Aqueous precursors | Sol-gel synthesis | PHYSICS, CONDENSED MATTER | sol-gel synthesis | WO3-TIO2 THIN-FILMS | aqueous precursors | CHEMISTRY, PHYSICAL | PEROXOPOLYTUNGSTIC ACID | LIFETIME | thin films | LAYERS | DEGRADATION | HYDROGEN-PEROXIDE | WO3 | tungsten oxide hydrates
Journal Article
by Li, J and Huang, J and Wu, J and Cao, L and Yanagisawa, K
Ceramics International, ISSN 0272-8842, 01/2012, Volume 38, Issue 6, pp. 4495 - 4500
Tungsten oxide hydrates crystallites with a diversity of morphologies were synthesised using peroxo-polytungstic acid as the precursor via a facile and... 
Crystallites | Additives | Morphology | Evolution | Tungsten oxides | Rods | Nanostructure | Hydrates
Journal Article
Solid State Ionics, ISSN 0167-2738, 2002, Volume 151, Issue 1, pp. 353 - 358
Morphology and structure transformation of tungstic acid hydrate, H WO ·nH O precipitates, have been studied in aqueous phase with various levels of residual... 
Residual sodium | Tungsten oxide | Hydrothermal treatment | Morphology | PHYSICS, CONDENSED MATTER | TRIOXIDE | morphology | FORM | residual sodium | tungsten oxide | CHEMISTRY, PHYSICAL | WO3 | hydrothermal treatment
Journal Article
Polyhedron, ISSN 0277-5387, 2010, Volume 29, Issue 9, pp. 2070 - 2074
Crystalline tungsten oxide hydrate (WO ·1/3H O) nanorods have been prepared by a hydrothermal process using Na WO -2H O and 4-phenylbutylamine as a... 
Tungsten oxide hydrate | Electrical properties | Nanorods | 4-Phenylbutylamine
Journal Article
Solar Energy Materials and Solar Cells, ISSN 0927-0248, 2003, Volume 76, Issue 4, pp. 577 - 590
The room temperature ageing process of tungsten oxide dihydrate grains (H WO ·H O) prepared by the methods of Zocher and Jacobson (Kolloidchem. Beih. 28 (1929)... 
Tungsten oxide hydrate | Ageing | Ion insertion | THIN-FILMS | ageing | TRIOXIDE | ENERGY & FUELS | MATERIALS SCIENCE, MULTIDISCIPLINARY | ELECTROCHROMIC DEVICE | SOLAR-ENERGY | ion insertion | WO3 | INTERCALATION | tungsten oxide hydrate
Journal Article
Solid State Ionics, ISSN 0167-2738, 2000, Volume 134, Issue 3, pp. 271 - 279
Proton conductivity of layered hydrates WO ·2H O and WO ·H O was investigated in the temperature range of 273-423 K under various water vapor pressures (p ).... 
Tungsten oxide hydrate | Layered compound | Proton conductor | Fuel cell | CHEMISTRY, PHYSICAL | PHYSICS, CONDENSED MATTER | proton conductor | fuel cell | layered compound | tungsten oxide hydrate
Journal Article
AIP Conference Proceedings, ISSN 0094-243X, 09/2018, Volume 2010, Issue 1
Tungsten trioxide (WO3) nanoplates were grown employing a low cost acid treatment method. Firstly, the tungsten oxide hydrate (WO3·H2O) nanoplates were grown... 
Acid treatment | Tungsten oxide hydrate | Tungsten oxide | Nanoplate | Scanning electron microscopy | Transmission electron microscopy | Low cost | Morphology | Optical properties | Silicon substrates | X-ray diffraction | Tungsten oxides | Optical reflection | Field emission microscopy | Glass substrates
Journal Article
Polyhedron, ISSN 0277-5387, 2010, Volume 29, Issue 9, pp. 2070 - 2074
Crystalline tungsten oxide hydrate (WO ·1/3H O) nanorods have been prepared by a hydrothermal process using Na WO ·2H O and 4-phenylbutylamine as a... 
Electrical properties | 4-Phenylbutylamine | Tungsten oxide hydrate | Nanorods
Journal Article
POLYHEDRON, ISSN 0277-5387, 06/2010, Volume 29, Issue 9, pp. 2070 - 2074
Crystalline tungsten oxide hydrate (WO3 center dot 1/3H(2)O) nanorods have been prepared by a hydrothermal process using Na2WO4 center dot 2H(2)O and... 
ROUTE | TRIOXIDE | Electrical properties | 4-Phenylbutylamine | WO3 NANORODS | SENSOR | CRYSTALLOGRAPHY | CHEMISTRY, INORGANIC & NUCLEAR | TUNGSTEN-OXIDE NANORODS | GROWTH | ELECTROCHROMISM | Tungsten oxide hydrate | NANOTUBES | NANOWIRES | Nanorods | MORPHOLOGY
Journal Article
Materials Research Express, ISSN 2053-1591, 06/2014, Volume 1, Issue 2, pp. 25044 - 13
Journal Article
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