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Spinel group --- Metallic oxides --- Crystallography --- Oxydes métalliques --- Cristallographie
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Metallic oxides --- Metallic films --- Metals --- Oxydes métalliques --- Couches minces métalliques --- Métaux --- Anodic oxidation --- Oxydation anodique
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Metallic oxides. --- Metallic films. --- Oxider. --- Aniodic oxidation. --- Metals --- Oxydes métalliques --- Couches minces métalliques --- Métaux --- Anodic oxidation. --- Couches minces métalliques --- Métaux --- Oxydes métalliques
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Ce livre explique les mécanismes mis en jeu dans la précipitation du solide en milieu aqueux. Il rend compte de la structure cristalline, de la taille et de la forme des nanoparticules à partir des paramètres structuraux, thermodynamiques et cinétiques de la condensation des complexes métalliques en solution. Il offre aussi l'étude détaillée de la chimie et de la physico-chimie de surface des oxydes. Il présente les concepts et modèles les plus récents, par exemple la dynamique du phénomène de croissance, l'agrégation ordonnée des nanoparticules, les transferts ioniques et électroniques inter faciaux...L'étude générale des divers éléments métalliques est complétée par l'analyse détaillée de la formation et des propriétés des oxydes les plus importants au plan technologique : aluminium, fer, titane, manganèse et zirconium. Sous forme de nanomatériaux, ces éléments possèdent en effet un intérêt particulier non seulement dans divers domaines industriels tels que les poudres céramiques, les nanocomposites, les techniques sol-gel, la catalyse et la photocatalyse, la cosmétique, mais aussi en géochimie, en chimie environnementale, voire dans certains phénomènes biologiques.
Solution (Chemistry) --- Precipitation (Chemistry) --- Oxides. --- Cations. --- Solutions aqueuses (chimie) --- Oxydes métalliques. --- Précipitation (chimie) --- Chimie des surfaces. --- Nanostructures. --- Oxydes métalliques. --- Précipitation (chimie)
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Nano-oxide materials lend themselves to applications in a wide variety of emerging technological fields such as microelectronics, catalysts, ceramics, coatings, and energy storage. However, developing new routes for making nano-based materials is a challenging area for solid-state materials chemists. This book does just that by describing a novel method for preparing them. The authors have developed a novel low-temperature, self-propagating synthetic route to nano-oxides by the solution combustion and combustible precursor processes. This method provides the desired composition, structure, and
Metallic oxides --- Nanocrystals --- Nanostructured materials --- Metallic oxides. --- Nanocrystals. --- Nanostructured materials. --- Oxydes métalliques. --- Nanocristaux. --- Nanomatériaux. --- Nanomatériaux --- Combustion. --- Nanomaterials --- Nanometer materials --- Nanophase materials --- Nanostructure controlled materials --- Nanostructure materials --- Ultra-fine microstructure materials --- Microstructure --- Nanotechnology --- Nanosized crystals --- Crystals --- Nanoparticles --- Metal oxides --- Metals --- Oxides --- Oxydes métalliques. --- Nanomatériaux. --- Nanomatériaux
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Oxidation --- Metallic oxides --- Oxydation --- Oxydes métalliques --- Solid state physics --- DIFFUSION --- EPITAXY --- ELECTRONIC STRUCTURE --- METALS --- OXIDATION --- Monograph --- Diffusion. --- Epitaxy. --- Electronic structure. --- Metals. --- Oxidation. --- Gases --- Liquids --- Physics --- Separation (Technology) --- Solution (Chemistry) --- Solutions, Solid --- Matter --- Packed towers --- Semiconductor doping --- Autoxidation --- Metallic elements --- Chemical elements --- Ores --- Metallurgy --- Structure, Electronic --- Atomic structure --- Energy-band theory of solids --- Epitaxial growth --- Crystal growth --- Diffusion --- Properties
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Oxidation --- Metallic oxides --- Metals at high temperatures --- Oxydation --- Oxydes métalliques --- Métaux à hautes températures --- 541.138 --- 620.19 --- High temperature metallurgy --- High temperatures --- Materials at high temperatures --- Metal oxides --- Metals --- Oxides --- Autoxidation --- Electrochemical reactions --- Material defects and their testing. Imperfections, faults, flaws. Chemical and physicochemical influences. Corrosion. Erosion. --- Metallic oxides. --- Oxidation. --- Effect of high temperatures on. --- 620.19 Material defects and their testing. Imperfections, faults, flaws. Chemical and physicochemical influences. Corrosion. Erosion. --- 541.138 Electrochemical reactions --- Oxydes métalliques --- Métaux à hautes températures --- Effect of high temperatures on --- Material defects and their testing. Imperfections, faults, flaws. Chemical and physicochemical influences. Corrosion. Erosion
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