Topics

A. Theory, Modeling and Calculation in Domain Structures

A₁. Carbon and Graphene for microelectronic devices

A₂. Theoretical approaches of multiferroic materials and multilayer ferroics

A₃. Magnetic and Electronic Materials

A₄. Advanced materials

A₅. Storage devices in industry and fundamental research

B. Syntheses, Characterization and Experimental

B₁. Ferroelectrics - Ferromagnetics - Multiferroics - Relaxors in Ceramics - Single crystals - Thin films – Superlattices

B₂. Giant magnetoristance effects

B₃. Structural and functional ceramic and metal-matrix composites

B₄. Magnetism and superconductivity in new materials

B₅. Resistance Switching Effects

B₆. Advances in piezoelectrics, lead free piezoelectrics, sensors, transducers

B₇. Electrocaloric materials

B₈. Storage in advanced technology.

B₉. Structural and chemical characterization of Metals and alloys compounds

B₁₀. Electron microscopy of materials and nanomaterials

B₁₁. Energy Systems / Energy efficiency

B₁₂. Thermal and Recycling

C. Nanoscience, Nanotechnology and Storage Devices

C₁. Clusters and Cluster Assembled Materials / Nanostructured -Thin films for Nanotechnology

C₂. Optical storage devices

C₃. Nano/Meso-structured Carbon in Bulk Materials

C₄. Synthesis, Functionalization, Interfacial Properties and Applications

C₅. Processing methods and advances in characterization techniques in superlattices structures

C₆. Advances in Functional Semiconducting Materials, Materials Devices for Flexible and Large Area Electronics

C₇. Carbon and Graphene for microelectronic devices

C₈. Strategies for Academy-Industry Relationship

C₉. Integrated ferroelectrics: thin films, nanostructures, superlattices

C₁₀. Advances in Computational Materials Science

C₁₁. Applications of Ferroelectrics: energy storage/conversion

C₁₂. Functional Magnetic Materials for Electrical Machines and Power Electronics

C₁₃. Computational methods for nanomaterials and energy

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