Advanced Materials and Systems for Energy Conversion : Fundamentals and Applications.

Intro -- ADVANCED MATERIALS AND SYSTEMS FOR ENERGY CONVERSION: FUNDAMENTALS AND APPLICATIONS -- ADVANCED MATERIALS AND SYSTEMS FOR ENERGY CONVERSION: FUNDAMENTALS AND APPLICATIONS -- Contents -- Preface -- AbouttheAuthor -- Acknowledgment -- Chapter1EnergyConversionFundamentals -- 1.1.Thermoelectrics -- 1.1.1.SeebeckEffect -- 1.1.2.ThermoelectricPower -- 1.1.3.PeltierEffect -- 1.1.4.ThomsonEffect -- 1.1.5.TheThomsonRelationships -- 1.1.6.AdvantagesofThermoelectricEnergyConversion -- 1.1.7.EnergyConversionEfficiency -- 1.2.PhotovoltaicEnergyConversion -- 1.3.MechanoelectricEnergyConversion -- 1.4.ElectrochemicalEnergyConversion -- 1.4.1.HistoricalBackground -- 1.4.2.FuelCellStructure -- 1.4.3.FuelCellClassification -- 1.4.4.MaterialsforSolidOxideFuelCells -- References -- Chapter2NanomaterialsProcessingandManufacturing -- 2.1.Introduction -- 2.2.NanomaterialsandProcesses -- 2.2.1.Bottom-upandTop-downApproaches -- 2.2.2.DendrimersandProcesses -- 2.2.3.NanomaterialsclustersandArraysinZeolites -- 2.2.4.SynthesisofNanomaterialsthroughArrestedPrecipitation -- 2.2.5.Self-assembledNanoscaleMaterialsandStructures -- 2.3.NanoscaleDeviceandSystemConcept -- 2.4.NanomaterialsProcessingandManufacturingTechniques -- 2.4.1.ChemicalApproaches -- SolutionMethod:LiquidPhaseDeposition -- ChemicalVaporDeposition -- Vapor-Liquid-SolidGrowth -- 2.4.2.Laser-AssistedCatalyticGrowth -- 2.4.3.ElectrochemicalApproaches -- ElectrochemicalOxidization -- ElectrochemicalEtching -- Electroplating -- Electrocodeposition -- 2.4.4.TemplateApproach -- AAOTemplate -- OtherTemplates -- 2.4.5.Lithography -- ConventionalPhotolithography -- SoftLithographyandNanoimprinting -- NearField/EdgeLithographicPatterningTechniques -- ElectronBeamLithography -- ScanningProbeLithography -- 2.4.6.Electrospinning -- 2.5.Applications -- 2.5.1.FuelCellElectrodes.

2.5.2.AdvancedCatalystsandNanoreactors -- 2.6.ConcludingRemarks -- References -- Chapter3ElectroplatingThermoelectricEnergyConversionNanomaterials -- 3.1.Introduction -- 3.2.MaterialsandExperimentalMethods -- 3.3.ResultsandDiscussion -- 3.3.1.ElectrochemicalDealloyingofCopperfromtheCu-ZnAlloy -- 3.3.2.ElectrodepositionofBiTeAlloy -- 3.3.3.ThermoelectricPropertyCharacterization -- 3.4.ConcludingRemarks -- References -- Chapter4ThermalPhotovoltaicEnergyConversionNanomaterialswithFractals -- 4.1.Introduction -- 4.2.Background -- 4.3.MaterialsandManufacturingProcesses -- 4.3.1.SynthesisofNanostructuredFractals -- PreparationofFractalTemplates -- ThinFilmDepositionandFractalPatternTransfer -- Sol-gelDepositionofOxideTE-PVNanomaterials -- NanocompositeFabricationandPackaging -- 4.4.StructureandPropertyCharacterization -- 4.5.ModelingPhononDampinginFractals -- 4.6.ApplicationsandOngoingResearch -- References -- Chapter5NanoporousMaterialsforElectrochemicalEnergyConversion -- 5.1.Introduction -- 5.2.Background -- 5.3.MaterialsandExperimentalMethods -- 5.3.1.Materials -- 5.3.2.ExperimentalSetup -- 5.3.3.ElectrochemicalDealloying -- 5.3.4.ElectrocatalyticPropertyCharacterization -- 5.4.ResultsandDiscussion -- 5.4.1.MorphologyofNanoporesandElementalAnalysis -- 5.4.2.CyclicVoltammogramsofElectrochemicalDealloying -- 5.4.3.EffectofNanoporesonCatalyticOxidationBehaviors -- 5.4.4.EffectofMetalTypeonCatalyticOxidationBehaviors -- 5.4.5.CatalyticOxidationBehaviorsduringReversedScan -- 5.4.6.EffectofFermentation -- 5.4.7.FabricationofBiofuelCells -- 5.5.ConcludingRemarks -- References -- Chapter6NanostructuredMaterialsforElectrical/MechanicalEnergyConversion -- 6.1.Introduction -- 6.2.Background -- 6.3.MaterialsDesignandManufacturingProcesses -- 6.3.1.PreparationofSelf-assembledNanopores -- 6.3.2.DepositionofMetallicNanofiberArrays.

6.3.3.ThermalEvaporationofThinFilmsonNanofiberArrays -- 6.3.4.EtchingandAssemblingtheNanoarchitecuredEnergyConverters -- 6.3.5.NanoporousPolymersforMicro/NanoscaleEnergyConverterFabrication -- 6.4.MicrostructureAnalysis -- 6.5.SensitivityoftheEnergyConverter -- References -- Chapter7DeformationofPorousFuelCellElectrodeatHighTemperatures -- 7.1.Introduction -- 7.2.Modeling -- 7.3.ReviewofCrystalPlasticityTheory -- 7.3.1.KinematicsandConstitutiveLaws -- 7.3.2.Rate-DependentPlasticity -- 7.4.NumericalSimulation -- 7.4.1.FiniteElementFormulation -- 7.5.ResultsandDiscussion -- 7.5.1.StressSolutions -- 7.5.2.InternalPressureSolution -- 7.5.3.StrainSolutions -- 7.5.4.SolutionstoCrystalLatticeRotation -- 7.5.5.EffectofLoadingLevel -- 7.5.6.StressesalongDifferentPaths -- 7.5.7.YieldSurface -- 7.6.ConcludingRemarks -- References -- Index.

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