05637nam 22007213u 450 991100701150332120250320003047.0(CKB)2670000000616540(EBL)2051700(SSID)ssj0001561856(PQKBManifestationID)16204484(PQKBTitleCode)TC0001561856(PQKBWorkID)14833078(PQKB)10329663(CaSebORM)9781782422556(MiAaPQ)EBC2051700(EXLCZ)99267000000061654020150525d2015|||| u|| |engur|n|---|||||txtccrEpitaxial Growth of Complex Metal Oxides Techniques, Properties and ApplicationsBurlington Elsevier Science20151 online resource (505 p.)Woodhead Publishing Series in Electronic and Optical MaterialsDescription based upon print version of record.9781782422556 1782422552 9781782422457 1782422455 Front Cover; Related titles; Epitaxial Growth of Complex Metal OxidesWoodhead Publishing Series in Electronic and Optical Materials: Number 76Edited byG ...; Copyright; Contents; List of contributors; Woodhead Publishing Series in Electronic and Optical Materials; Part 1 - Epitaxial growth of complex metal oxides; 1 - Growth studies of heteroepitaxial oxide thin films using reflection high-energy electron diffraction (RHEED); 1.1 Introduction: reflection high-energy electron diffraction and pulsed laser deposition; 1.2 Basic principles of RHEED11.3 Variations of the specular intensity during deposition1.4 RHEED intensity variations during heteroepitaxy: examples; 1.5 Conclusions; Acknowledgments; References; 2 - Sputtering techniques for epitaxial growth of complex oxides; 2.1 Introduction; 2.2 General considerations for sputtering of complex oxides; 2.3 A practical guide to the sputtered growth of perovskite titanate ferroelectrics; 2.4 Conclusions; References; 3 - Hybrid molecular beam epitaxy for the growth of complex oxide materials; 3.1 Introduction; 3.2 Metal-organic precursors for oxide hybrid molecular beam epitaxy (HMBE)3.3 Deposition kinetics of binary oxides from metal-organic (MO) precursors3.4 Opening a growth window with MO precursors; 3.5 Properties of materials grown by hybrid oxide molecular beam epitaxy (MBE); 3.6 Limitations of HMBE and future developments; Acknowledgments; References; 4 - Chemical solution deposition techniques for epitaxial growth of complex oxides; 4.1 Introduction; 4.2 Reagents and solvents; 4.3 Types of chemical solution deposition (CSD) processes; 4.4 Film and pattern formation; 4.5 Crystallization, densification and epitaxy; 4.6 Examples of CSD-derived oxide films4.7 ConclusionsReferences; 5 - Epitaxial growth of superconducting oxides; 5.1 Introduction; 5.2 Overview of epitaxial growth of superconducting oxides; 5.3 Requirements for growth of high-quality complex metal-oxide films by molecular-beam epitaxy (MBE); 5.4 Case studies; 5.5 Synthesis of new superconductors by thin-film growth methods; 5.6 Conclusions and future trends; 5.7 Sources of further information and advice; Acknowledgments; References; 6 - Epitaxial growth of magnetic-oxide thin films; 6.1 Introduction; 6.2 Magnetism and major magnetic-oxide systems6.3 The effects of thin-film epitaxy on magnetism6.4 Characterization of magnetic-oxide thin films; 6.5 Applications of epitaxial magnetic-oxide thin films; 6.6 Future of epitaxy of complex-oxide magnets; Acknowledgments; References; Part 2 - Properties and analytical techniques; 7 - The effects of strain on crystal structure and properties during epitaxial growth of oxides; 7.1 Introduction; 7.2 Crystal structures of perovskites and related oxides; 7.3 Lattice mismatch-induced stress accommodation in oxide thin films7.4 Effect of misfit strain-induced distortions on transport and magnetic propertiesThe atomic arrangement and subsequent properties of a material are determined by the type and conditions of growth leading to epitaxy, making control of these conditions key to the fabrication of higher quality materials. Epitaxial Growth of Complex Metal Oxides reviews the techniques involved in such processes and highlights recent developments in fabrication quality which are facilitating advances in applications for electronic, magnetic and optical purposes. Part One reviews the key techniques involved in the epitaxial growth of complex metal oxides, including growth studies using reflecWoodhead Publishing Series in Electronic and Optical MaterialsEpitaxyThin films -- SurfacesThin films, MultilayeredMaterials ScienceHILCCChemical & Materials EngineeringHILCCEngineering & Applied SciencesHILCCEpitaxy.Thin films -- Surfaces.Thin films, Multilayered.Materials ScienceChemical & Materials EngineeringEngineering & Applied Sciences621.38152Koster Gertjan1971-1825074Huijben M1825075Rijnders Guus1825076AU-PeELAU-PeELAU-PeELBOOK9911007011503321Epitaxial Growth of Complex Metal Oxides4392532UNINA