Electrochemical Water Electrolysis:Fundamentals and Technologies


: Fundamentals of Water ElectrolysisImportance of Water Electrolysis in Energy Storage and ConversionBrief Introduction of Water ElectrolysisAlkaline Water ElectrolyzerPolymer Electrolyte Membrane Water ElectrolyzerSolid Oxide Electrolyzer CellSolar Relevant Electrocatalytic TechnologyRecent Development of Water ElectrolysisNanostructure ConstructionCrystal Phase AdjustmentCrystal Face RegulationHeteroatomic DopingHybrid of MaterialsMechanical AlloyingPolymer Surface ModificationFundamentals of Water ElectrolysisScheme Structure of Water ElectrolysisElectrochemical Process of Water ElectrolysisHydrogen Evolution Reaction in Water ElectrolysisOxygen Evolution Reaction in Water ElectrolysisSummaryReferences: Alkaline Liquid Electrolyte for Water ElectrolysisWorking PrinciplesPrinciples of Hydrogen Evolution ReactionPrinciples of Oxygen Evolution ReactionRelated Catalytic ReactionsCathode HER ElectrocatalystsIntroductionMeasurement Criteria for Characterizing the Electrocatalytic ActivityNoble-Metal-Based HER Electrocatalysts in Alkaline ElectrolyteCarbon-Based HER Electrocatalysts in Alkaline ElectrolyteTransition Metal-Based HER Electrocatalysts in Alkaline ElectrolyteAnode OER ElectrocatalystsIntroductionMechanism of OERMetal-Based OER ElectrocatalystsNon-Metal-Based OER ElectrocatalystsDFT CalculationCell Components (Electrolytes and Separators), Design and PerformanceCell ComponentsElectrolytes and SeparatorsDesign and PerformanceChallenges and PerspectivesReferences: Proton Exchange Membrane Water ElectrolysisWorking PrinciplesThe Mechanism for Hydrogen Evolution ReactionFurther Analysis: Rate-Determining Step and “Degree of Rate Control”Oxygen Evolution ReactionElectrocatalytic Kinetics, Measurement Criteria, and Theoretical Modeling for Oxygen Evolution ReactionOverpotential (.)Exchange Current Density (i0)Tafel Equation and Tafel Slope (b)Conductivity MeasurementCell ComponentsNegative Electrodes and ElectrocatalystsElements of Hydrogen Evolution CatalystClassification of Hydrogen Evolution CatalystNoble Metal Hydrogen Evolution ElectrocatalystsNon-Noble Metal Hydrogen Evolution CatalystPositive Electrodes and ElectrocatalystsPrecious Metal Oxygen Evolution CatalystProton Exchange MembranesWater Uptake and Membrane SwellsProton ConductivityElectro-osmotic Drag CoefficientMembrane Electrolyte AssembliesCell Design, Fabrication, and PerformanceChallenges and PerspectivesSummaryReferences: Anion Exchange Membrane Water ElectrolysisWorking PrincipleCell ComponentsNegative Electrodes and ElectrocatalystsPositive Electrodes and ElectrocatalystsAnion Exchange MembraneMembrane Electrode AssemblyCell Design, Fabrication, and PerformanceChallenges and PerspectivesSummaryReferences: Solid Oxide Water ElectrolysisSolid Oxide Water ElectrolysisWorking PrinciplesCell ComponentsHydrogen ElectrodesOxygen ElectrodesSolid Oxide ElectrolytesMembrane Electrolyte AssembliesCell Design, Fabrication, and PerformancePlanar SOECs DesignTubular DesignFlat Tubular SOECs DesignSOEC FabricationSOEC PerformanceChallenges and PerspectivesPerspectivesSummaryReferences: Photoelectrochemical Water ElectrolysisIntroductionFundamentals of PEC Water SplittingPrinciple and MechanismPEC Water Splitting DevicesTandem SystemPEC/PV SystemEnergy and Quantum Conversion Efficiencies of PEC DevicesPhotoelectrochemical Cell ComponentsPhotocathode Materials and ElectrocatalystsSilicon (Si)Cuprous Oxide (Cu2O)Ternary OxidesIII-V Group SemiconductorsTransition Metal DichalcogenidesHER Electrocatalysts for PhotocathodePhotoanode Materials and ElectrocatalystsTitanium Dioxide (TiO2)Zinc Oxide (ZnO)Tungsten Oxide (WO3)Bismuth Vanadate (BiVO4)Metal (oxy)nitridesOER Electrocatalysts for PhotoanodesIon Exchange MembranesProton Exchange Membrane (PEM)Anion Exchange Membrane (AEM)Bipolar Membrane (BPM)ElectrolytesStrategies for Efficient PEC Water SplittingStrategies to Improve the Light AbsorptionNanostructuringBand EngineeringStrategies to Facilitate the Charge Separation and TransportationElement DopingHeterostructure ConstructionMorphology ControlStrategies to Enhance the Surface Charge InjectionCocatalyst LoadingSurface PassivationPEC Cell DesignChallenges and PerspectivesSummaryReferencesIndex
 
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