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Topics
A. Theory, Modeling and Calculation in Domain Structures
A1. Carbon and Graphene for microelectronic devices
A2. Theoretical approaches of multiferroic materials and multilayer ferroicsA3. Magnetic and Electronic MaterialsA4. Advanced materialsA5. Storage devices in industry and fundamental researchB. Syntheses, Characterization and ExperimentalB1. Ferroelectrics - Ferromagnetics - Multiferroics - Relaxors in Ceramics - Single crystals - Thin films – SuperlatticesB2. Giant magnetoristance effectsB3. Structural and functional ceramic and metal-matrix compositesB4. Magnetism and superconductivity in new materialsB5. Resistance Switching EffectsB6. Advances in piezoelectrics, lead free piezoelectrics, sensors, transducersB7. Electrocaloric materialsB8. Storage in advanced technology.B9. Structural and chemical characterization of Metals and alloys compoundsB10. Electron microscopy of materials and nanomaterialsB11. Energy Systems / Energy efficiencyB12. Thermal and RecyclingC. Nanoscience, Nanotechnology and Storage DevicesC1. Clusters and Cluster Assembled Materials / Nanostructured -Thin films for NanotechnologyC2. Optical storage devicesC3. Nano/Meso-structured Carbon in Bulk MaterialsC4. Synthesis, Functionalization, Interfacial Properties and ApplicationsC5. Processing methods and advances in characterization techniques in superlattices structuresC6. Advances in Functional Semiconducting Materials, Materials Devices for Flexible and Large Area ElectronicsC7. Carbon and Graphene for microelectronic devicesC8. Strategies for Academy-Industry RelationshipC9. Integrated ferroelectrics: thin films, nanostructures, superlatticesC10. Advances in Computational Materials ScienceC11. Applications of Ferroelectrics: energy storage/conversionC12. Functional Magnetic Materials for Electrical Machines and Power ElectronicsC13. Computational methods for nanomaterials and energy |