ISAF
- Fundamentals of ferroelectrics and multiferroic materials (theory, modeling and experiments)
- Processing of piezoelectric crystals, ceramics, thick and thin films, composite, polymers, glassceramics and MLCCs.
- Lead free dielectric and piezoelectric materials (A3+)
- 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.)
ISIF
- Materials for non-volatile memory and neuromorphic computing (including ferroelectrics, phase change, RRAM, magnetic)
- Integrated dielectrics (energy storage, 5G, high K, gate dielectrics)
- Piezoelectric MEMS and NEMS (resonators, energy harvesters, sensors, actuators, and transducers)
- Wearable and implantable devices (biosensing, neural stimulation, prosthetics, hard coatings)
- Processing routes for heterogeneous materials integration (oxides, chalcogenides, metals, and carbons)
- Hybrid perovskites (photovoltaics, nonlinear optics, semiconductors)
PFM
- Instrumental aspects of PFM, ESM, SS-PFM and related techniques
- Nanoelectromechanics of materials and PFM/ESM theory
- Ferroelectric tunnelling and memristor effect via PFM/ESM
- Multiferroic phenomena on the nanoscale
- Disordered ferroelectrics and mesoscopic effects by PFM
- Ferroelectric data storage and polarization lithography
- Ionic conductors, battery materials and fuel cells on the nanoscale
- Ferroelectric photovoltaics and tipenhanced phenomena
- Ferroelectric semiconductors and surface phenomena »Interface engineering via PFM
- Biocompatible & organic polar materials on the nanoscale
- 1D and 2D nanostructured materials via PFM