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Preface | ||
Recent Advances in Fabrication of High-Tc Superconductors for Electric Power Applications | 1 | |
The Local Structure of YBCO Based Materials by TEM | 11 | |
High Pressure Crystal Growth and Properties of Hg-Superconductors and Quasi-One-Dimensional Cuprates | 21 | |
Polymerizable Complex Synthesis of Multicomponent Oxides Including High-Temperature Superconducting Oxides | 27 | |
Spray Pyrolysis of High-Temperature (Super)Conductors | 33 | |
Preparation and Characterisation of HTSC Powders, Shaping of Bulk Materials and their Magnetic Properties | 39 | |
In Situ Monitoring of CVD for HTS Growth | 45 | |
Electrodeposition of HTSC Films | 51 | |
Cryochemical Technology of Superconductors and Related Materials | 57 | |
Phase Equilibria of the (Bi,Pb)-Sr-Ca-Cu-O System Pertaining to the 2212 and 2223 Phases | 63 | |
Formation of Stable Phase Inclusions in Bi-2212 and (Bi, Pb)-2223 Materials | 69 | |
Atomic Layer MOCVD of Oxide Superconductors and Dielectrics | 75 | |
Single Source MOCVD of HTSC Films Onto Movable Substrates | 79 | |
The Liquid Source Injection Technique: Principle and Application to the Deposition of Oxide Layers and Multilayers | 85 | |
Oxide-Fluorides: New Parent Structures for Superconducting Materials | 91 | |
High-Pressure Synchrotron Diffraction Study of the Superconducting Spin-Ladder Compound (Sr,M)[subscript 14]Cu[subscript 24]O[subscript 41], with M=Ca, Ba, Nd | 97 | |
Structural Studies of Cuprates and Bismuthates by Electron Microscopy | 103 | |
Novel Structural Phenomena at the Maximum Tc in 123 and HgBa[subscript 2]CuO[subscript 4+[delta]] Superconductors: Evidence for a Structural Response that Competes with Superconductivity | 109 | |
Ba-Cu-O-CL Compounds with Non-Equivalent CU Sites: Phase Equilibria and Crystal Structure | 117 | |
La Doping Effects on Structure and Conductivity of (Ba,Sr,Ca)PbO[subscript 3] | 123 | |
Effects of Sr Substitution on the Tc and Crystal Structure of Tl[subscript 2](Ba[subscript 1-x]Sr[subscript x])[subscript 2]Ca[subscript 2]Cu[subscript 3]O[subscript y] | 129 | |
Anion Ordering in Fluorinated La[subscript 2]CuO[subscript 4] | 133 | |
Interface Defects Induced by Epitaxial Growth Mechanism in YBa[subscript 2]Cu[subscript 3]O[subscript 7] Thin Films on SrTiO[subscript 3] Substrate: Application to Thin Films Bicrystals and Multilayers | 139 | |
Phase Diagram and Structure-Related Studies of the Nd-Rich Nd[subscript 1+x]Ba[subscript 2-x]Cu[subscript 3]O[subscript z] Solid Solution | 145 | |
Phase Structure in the Asynnni Model for the Self-Diffusion of Oxygen in 123YBCO | 151 | |
Anion Doping and Superconducting Properties of Hg-Based Superconducting Mixed Oxides | 157 | |
Phase Equilibria and Single Crystal Growth of Ln[subscript 1 -x]Ca[subscript x]Sr[subscript 2]Cu[subscript 2]GaO[subscript 7] (Ln = Y, Ho) | 163 | |
Superconductivity in K[subscript x] Ba[subscript 1 -x]BiO[subscript 3] Single Crystals | 169 | |
Study of Holes Distribution in the Ln[subscript 1+x ]Ba[subscript 2-x]Cu[subscript 3]O[subscript z] Solid Solutions (Ln = La and Nd) by Raman Spectroscopy | 173 | |
Nuclear Resonance and Susceptibility Investigations of Hg-Based High-Tc Superconductors | 177 | |
Vortex Lock-in Phenomena in YBa[subscript 2]Cu[subscript 3]O[subscript y] Single Crystals | 183 | |
Magneto-Optical Characterisation of Bi[subscript 2]Sr[subscript 2]CaCu[subscript 2]O[subscript x] Single Crystals. Structure and Electronic Properties | 189 | |
Effect of Pb and Sr Substitutions on Irreversiblity and Fishtail Lines of Hg-1223 Phase: Powder, Ceramic and Single Crystal Studies | 193 | |
Cation Substitution, Second Phase Precipitation, Superconductivity, and Flux Pinning in LRE[subscript 1+x ]Ba[subscript 2-x]Cu[subscript 3]O[subscript 7] | 199 | |
Thallium-Based HTS Thin Films for Microwave Applications | 205 | |
Superconductivity Suppression in (Nd[subscript 1.05-x]Pr[subscript x])Ba[subscript 1.95]Cu[subscript 3]O[subscript 7] Studied by X-Ray Absorption Spectroscopy | 211 | |
Intergrain Properties of Pressure-Oxygenated REBa [subscript 2]Cu[subscript 3]O[subscript 3-[delta]] | 217 | |
Tracer Diffusion of Oxygen in 123YBCO from Monte-Carlo Simulations of the Asynnni Model | 223 | |
Electron Doped Manganites Ca[subscript 1-x]A[subscript x]MnO[subscript 3] (A= Ln, Th) | 227 | |
(La[subscript 1-x]Pr[subscript x])[subscript 0.7]Ca[subscript 0.3]MnO[subscript 3] Colossal Magnetoresistive Materials: Structure and Electronic Properties | 233 | |
HREM Study of Domains in Thin Films of La[subscript 0.73]Ca[subscript 0.27]MnO[subscript 3] and (La[subscript 1-x]Pr[subscript x])[subscript 0.7]Ca[subscript 0.3]MnO[subscript 3] | 239 | |
Effect of Temperature on Ca[subscript 2]Fe[subscript 2]O[subscript 5] and Crystal Structures in the (Ca,Sr)Fe[subscript 1-y]Ti[subscript y]O[subscript 3-[delta]] System Studied by Powder Neutron Diffraction | 245 | |
Structure and Properties of Some Thiospinels | 251 | |
Phase Transitions in Ternary Oxides | 257 | |
Mesoscopic Scale Structures of a Ferroelastic Domain Wall | 263 | |
Structural Effects of the Diffusion Enhancement in Growing Oxide Films | 271 | |
Preparation of Ferroelectric Oxide FLMS by Sol-Gel Method | 279 | |
Study of the Reactivity of Nanocrystallites of SnO[subscript 2] with H[subscript 2]S by Coupled Electrical and Raman Measurements | 285 | |
A Discussion of Diffusion and Solid State Reactions in Alloys of II-VI, III-VI and IV-VI Compounds on the Basis of Phase Diagrams | 291 | |
Optical Properties of Gallium-Doped PbTe | 297 | |
Precursors for Barium Metal-Organic Chemical Vapor Deposition Advantages and Disadvantages in Improvement of Barium Hexafluoroacetylacetonate | 303 |
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Add High-Temperature Superconductors and Novel Inorganic Materials, Research into high-Tc materials demands the co-operation of physicists, chemists and materials scientists to discover the best solutions to the most important challenges presented by the field. In the fifth annual Workshop on High Temperature Superconduct, High-Temperature Superconductors and Novel Inorganic Materials to the inventory that you are selling on WonderClubX
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Add High-Temperature Superconductors and Novel Inorganic Materials, Research into high-Tc materials demands the co-operation of physicists, chemists and materials scientists to discover the best solutions to the most important challenges presented by the field. In the fifth annual Workshop on High Temperature Superconduct, High-Temperature Superconductors and Novel Inorganic Materials to your collection on WonderClub |