Session: Piezoelectric and Dielectric Materials
• Fundamentals of ferroelectrics and multiferroic materials (theory, modeling and experiments)
• Low dimensional structures and interfaces: fundamentals, processing, and properties
• Processing of piezoelectric crystals, ceramics, thick and thin films, composite, polymers, glassceramics and MLCCs.
• Piezoelectric single crystals, ceramics and thin films
• Lead free dielectric and piezoelectric materials.
• Structure characterization and properties of ferroelectric materials (dielectric, piezoelectric, ferroelectric, pyroelectric, electrocaloric, flexoelectric, photovoltaics and photocatalytics, etc.)
• Applications of ferroelectrics (sensing, transducing, thermal imaging, energy harvesting and storage, etc.)
• Piezoelectric MEMS and NEMS (resonators, energy harvesters, sensors, actuators, and transducers)
• Wearable and implantable devices (biosensing, neural stimulation, prosthetics, hard coatings)
• High Dielectric constant materials for capacitor applications
• Dielectric and piezoelectric applications