Oxide-Based Materials and Structures: Fundamentals and Applications - Oxide-Based Materials and Structures: Fundamentals and Applications -

Oxide-Based Materials and Structures: General Remarks Optical Characterization of Oxide-Based Materials Using Ellipsometry INTRODUCTION OPTICAL CHARACTERIZATION BY ELLIPSOMETRY Hardware Evaluation UNIFORM STRUCTURES Models for Dielectric Oxides Models for Semiconducting Oxides Models for Conducting Oxides LOW-DIMENSIONAL AND COMPOSITE STRUCTURES APPLICATIONS CONCLUSION REFERENCES Electrical Characterization of Oxide-Based Materials Using Impedance Spectroscopy INTRODUCTION TO IMPEDANCE SPECTROSCOPY APPROACH IMPEDANCE PRESENTATION METHODS METHOD OF GRAPHICAL IMPEDANCE REPRESENTATION IN BODE AND NYQUIST COORDINATES ADVANTAGES OF THE IS METHOD STUDYING THE ELECTROCHEMICAL CHARACTERISTICS OF SOLID OXIDE FUEL CELLS STUDY OF ELECTRONIC TRANSPORT MECHANISMS IN BIOLOGICAL NANOOBJECTS STUDY OF IONIC TRANSFER IN SOLID ELECTROLYTES WITH NASICON STRUCTURE CHARACTERIZATION ELECTROCERAMICS BY IS THE IMPEDANCE OF THIN DENSE OXIDE CATHODES IS STUDY OF POROUS INDIUM TIN OXIDE-BASED GAS SENSOR STUDIES OF PROPAGATION MECHANISM IN SOLID IONIC MATRICES MESOPOROUS C/-Fe203 Films CPE BEHAVIOR CAUSED BY RESISTIVITY DISTRIBUTIONS COPPER OXIDES IN NEUTRAL SOLUTIONS LITHIUM NICKEL MANGANESE COBALT OXIDE POUCH CELLS SPINEL-TYPE COBALT OXIDE THIN FILM ELECTRODES IN ALKALINE MEDIUM GRAPHENE OXIDE SOLUTIONS DENDRONIZED CaSi03-Si02-Si Nanoheterostructures IN SITU ANALYSIS OF OXIDE LAYER FORMATION IN LIQUID METAL METAL-OXIDE NANOCOMPOSITES OXIDE FILM ON TITANIUM FOR IMPLANT APPLICATION REFERENCES Analytical Techniques for Characterization of Oxide-Based Materials ANALYTICAL TECHNIQUES FOR CHARACTERIZATION OF OXIDE-BASED MATERIALS SUMMARY ACKNOWLEDGEMENTS REFERENCES Low-Dimensional Structures of ln203, Sn02 and Ti02 with Applications of Technological Interest INTRODUCTION INDIUM OXIDE LOW-DIMENSIONAL STRUCTURES AND APPLICATIONS Optics-Related Applications of Low-Dimensional In203 Structures Sensors with In203 as Active Material In203 Mechanical Resonators SN02-BASED NANOSTRUCTURES AND APPLICATIONS Application of Sn02 in Batteries Sn02 Implementation in Solar Cells TI02 LOW-DIMENSIONAL STRUCTURES AND APPLICATIONS Photovoltaic Applications Photocatalytic Applications Toward Ti02 Phase-Control-Based Devices Applications of Ti02-Based Composites REFERENCES Transition Metal Oxides for Magnetic and Energy Applications INTRODUCTION MAGNETIC PHENOMENA IN OXIDE-BASED MATERIALS WHAT IS A MULTIFERROIC?SINGLE-PHASE MULTIFERROIC COMPOUNDS Bi-Containing Multiferroic Oxides DOUBLE PEROVSKITE COMPOUNDS THE RARE-EARTH PEROVSKITE MULTIFERROICS MULTIFERROIC COMPOSITE SYSTEMS IRON AND CHROMIUM OXIDE FOR MAGNETIC AND ENERGY APPLICATIONS IRON AND CHROMIUM OXIDES' PROPERTIES HEMATITE (A-Fe203) PHOTOANODES FOR SOLAR WATER SPLITTING REFERENCES Phonon and Plasmon–Phonon Interactions in ZnO Single Crystals and Thin Films INTRODUCTION EFFECT OF STRONG MAGNETIC FIELD ON SURFACE POLARITONS IN ZNO PLASMON-PHONON EXCITATIONS IN ZNO SINGLE CRYSTALS WITH HIGH CARRIER CONCENTRATION STUDIED WITH IR REFLECTION SPECTROSCOPY THE EFFECT OF PLASMON-PHONON INTERACTION ON THE IR REFLECTIONS SPECTRA OF ZNO FILMS GROWN ON DIFFERENT SUBSTRATES CONCLUSIONS REFERENCES Zinc Oxide Grown by Atomic Layer Deposition: AVersatile Material for Microelectronics INTRODUCTION ALD OF ZINC OXIDE ZnO Films Grown by ALD Structure and Morphology of ZnO Films Grown by ALD ELECTRICAL PROPERTIES OF UNDOPED ZnO FILMS Electrical Properties of ZnO Grown by ALD Impurities STOICHIOMETRY OPTICAL PROPERTIES DOPED ZnO-ALD FILMS Donor Doping Acceptor doping DEVICES BASED ON ZnO-ALD Films Schottky Diode Other Electronic Devices SUMMARY ACKNOWLEDGMENT REFERENCES Wide and Ultrawide Bandgap Oxides for Photovoltaics and Photonics INTRODUCTION AL20;j-BASED MATERIALS DOPED WITH RARE-EARTH IONS Yb-Doped Al203 Er-Doped Al203 Tm-Doped Al20:5 Materials zro2- and hfo2-based materials RE Free Zr02- and Hf02-Based Materials and Their Solid Solutions RE-Doped Zr02 and Hf02 and Their Silicates Nd-Doped Zr Silicates RE-Doped Hf Silicates CONCLUSIONS REFERENCES