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 Topics |
 >ABSTRACT SUBMISSION>Topics |
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| 1. Basic Principles |
| a. |
Ferroelectric, Piezoelectric, Relaxor Materials: Phase Transitions & Critical Phenomena |
| b. |
Multiferroic, Magnetic Ceramics: Magnetoelectric Couplings |
| c. |
Conductive, Superconducting, Transparent Conducting Oxides |
| d. |
Theories: First Principles Calculations, Monte-Carlo Simulations, Phase-Field Simulations, etc. |
| e. |
Phase Diagram and Crystal Chemistry of Functional Ceramics |
| f. |
Domains and Switching Dynamics |
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| 2. Processes and Characterizations |
| a. |
Single Crystal Growth, Ceramic Processing, Microstructures |
| b. |
Thin/Thick Films, Multilayer Electronic Ceramics |
| c. |
Novel Phenomena in Oxide Interfaces and Heterostuctures |
| d. |
Composites, Multiphase, and Nanostructured Ceramics |
| e. |
Advances in Characterization Methods: Synchrotron X-ray, PFM, etc. |
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| 3. Applications |
| a. |
Energy-related Applications: Battery, LED, SOFC, Solar Cells, and Energy Harvesting Devices |
| b. |
Microwave Dielectrics and their Applications |
| c. |
Lead-free Piezoelectrics and Applications: Actuators, MEMS, NEMS, etc. |
| d. |
Memory Applications: High-k Dielectrics, FeRAM, RRAM, etc. |
| e. |
Electroceramic Sensors: RF MMIC, NTC & PTC Varistors, etc |
| f. |
Electronic and Optical Packaging |
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