Keynote
INSIGHT INTO STRUCTURE, PROPERTIES, AND MOBILITY OF FERROELECTRIC DOMAIN WALLS

As interfaces that can be displaced in-situ, ferroelectric domain walls [DWs] are a source of continuous fascination. We have been studying during the past 5 years some of their properties and internal structure and learning how to control DW patterns and functionalize them. Among the obtained results are dense patterns of arrays of domains and DWs having

References: 1. Feigl et al., Nature Commun. (2014) 2. Mtebwa et al. APL (2015). 3. McGilly et al., Nature Nanotech (2015). 4. McGilly et al. Nano Letters (2016). 5. McGilly et al. Ad Fun Materials (2017). 6. Sluka et al., Nature Commun (2012). 7. Sluka et al., Nature Commun. (2013). 8. Bednyakov et al. Sci. Reports (2015). 9. Bednyakov et al. Adv. Materials (2016). 10. Crassous et al. Nature Nanotech (2015). 11. Stolichnov et al. Nano Letters (2015). 12. Wei et al., ACS Appl. Mat. & Interfaces (2016). 13. Wei et al., Nat. Commun (2014). 14. Wei et al., Nat. Commun (2016). 15. Huang et al. (2015). 16. Shapovalov et al. PRL (2014).