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Oxide-Based Materials and Structures: Fundamentals and Applications


Oxide-Based Materials and Structures: General RemarksOptical Characterization of Oxide-Based Materials Using EllipsometryINTRODUCTIONOPTICAL CHARACTERIZATION BY ELLIPSOMETRYHardwareEvaluationUNIFORM STRUCTURESModels for Dielectric OxidesModels for Semiconducting OxidesModels for Conducting OxidesLOW-DIMENSIONAL AND COMPOSITE STRUCTURESAPPLICATIONSCONCLUSIONREFERENCESElectrical Characterization of Oxide-Based Materials Using Impedance SpectroscopyINTRODUCTION TO IMPEDANCE SPECTROSCOPY APPROACHIMPEDANCE PRESENTATION METHODSMETHOD OF GRAPHICAL IMPEDANCE REPRESENTATION IN BODE AND NYQUIST COORDINATESADVANTAGES OF THE IS METHODSTUDYING THE ELECTROCHEMICAL CHARACTERISTICS OF SOLID OXIDE FUEL CELLSSTUDY OF ELECTRONIC TRANSPORT MECHANISMS IN BIOLOGICAL NANOOBJECTSSTUDY OF IONIC TRANSFER IN SOLID ELECTROLYTES WITH NASICON STRUCTURECHARACTERIZATION ELECTROCERAMICS BY ISTHE IMPEDANCE OF THIN DENSE OXIDE CATHODESIS STUDY OF POROUS INDIUM TIN OXIDE-BASED GAS SENSORSTUDIES OF PROPAGATION MECHANISM IN SOLID IONIC MATRICESMESOPOROUS C/-Fe203 FilmsCPE BEHAVIOR CAUSED BY RESISTIVITY DISTRIBUTIONSCOPPER OXIDES IN NEUTRAL SOLUTIONSLITHIUM NICKEL MANGANESE COBALT OXIDE POUCH CELLSSPINEL-TYPE COBALT OXIDE THIN FILM ELECTRODES IN ALKALINE MEDIUMGRAPHENE OXIDE SOLUTIONSDENDRONIZED CaSi03-Si02-Si NanoheterostructuresIN SITU ANALYSIS OF OXIDE LAYER FORMATION IN LIQUID METALMETAL-OXIDE NANOCOMPOSITESOXIDE FILM ON TITANIUM FOR IMPLANT APPLICATIONREFERENCESAnalytical Techniques for Characterization of Oxide-Based MaterialsANALYTICAL TECHNIQUES FOR CHARACTERIZATION OF OXIDE-BASED MATERIALSSUMMARYACKNOWLEDGEMENTSREFERENCESLow-Dimensional Structures of ln203, Sn02 and Ti02 with Applications of Technological InterestINTRODUCTIONINDIUM OXIDE LOW-DIMENSIONAL STRUCTURES AND APPLICATIONSOptics-Related Applications of Low-Dimensional In203 StructuresSensors with In203 as Active MaterialIn203 Mechanical ResonatorsSN02-BASED NANOSTRUCTURES AND APPLICATIONSApplication of Sn02 in BatteriesSn02 Implementation in Solar CellsTI02 LOW-DIMENSIONAL STRUCTURES AND APPLICATIONSPhotovoltaic ApplicationsPhotocatalytic ApplicationsToward Ti02 Phase-Control-Based DevicesApplications of Ti02-Based CompositesREFERENCESTransition Metal Oxides for Magnetic and Energy ApplicationsINTRODUCTIONMAGNETIC PHENOMENA IN OXIDE-BASED MATERIALSWHAT IS A MULTIFERROIC?SINGLE-PHASE MULTIFERROIC COMPOUNDSBi-Containing Multiferroic OxidesDOUBLE PEROVSKITE COMPOUNDSTHE RARE-EARTH PEROVSKITE MULTIFERROICSMULTIFERROIC COMPOSITE SYSTEMSIRON AND CHROMIUM OXIDE FOR MAGNETIC AND ENERGY APPLICATIONSIRON AND CHROMIUM OXIDES' PROPERTIESHEMATITE (A-Fe203) PHOTOANODES FOR SOLAR WATER SPLITTINGREFERENCESPhonon and Plasmon–Phonon Interactions in ZnO Single Crystals and Thin FilmsINTRODUCTIONEFFECT OF STRONG MAGNETIC FIELD ON SURFACE POLARITONS IN ZNOPLASMON-PHONON EXCITATIONS IN ZNO SINGLE CRYSTALS WITH HIGH CARRIER CONCENTRATION STUDIED WITH IR REFLECTION SPECTROSCOPYTHE EFFECT OF PLASMON-PHONON INTERACTION ON THE IR REFLECTIONS SPECTRA OF ZNO FILMS GROWN ON DIFFERENT SUBSTRATESCONCLUSIONSREFERENCESZinc Oxide Grown by Atomic Layer Deposition: AVersatile Material for MicroelectronicsINTRODUCTIONALD OF ZINC OXIDEZnO Films Grown by ALDStructure and Morphology of ZnO Films Grown by ALDELECTRICAL PROPERTIES OF UNDOPED ZnO FILMSElectrical Properties of ZnO Grown by ALDImpuritiesSTOICHIOMETRYOPTICAL PROPERTIESDOPED ZnO-ALD FILMSDonor DopingAcceptor dopingDEVICES BASED ON ZnO-ALD FilmsSchottky DiodeOther Electronic DevicesSUMMARYACKNOWLEDGMENTREFERENCESWide and Ultrawide Bandgap Oxides for Photovoltaics and PhotonicsINTRODUCTIONAL20;j-BASED MATERIALS DOPED WITH RARE-EARTH IONSYb-Doped Al203Er-Doped Al203Tm-Doped Al20:5 Materialszro2- and hfo2-based materialsRE Free Zr02- and Hf02-Based Materials and Their Solid SolutionsRE-Doped Zr02 and Hf02 and Their SilicatesNd-Doped Zr SilicatesRE-Doped Hf SilicatesCONCLUSIONSREFERENCES
 
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