Database mining and first-principles assessment of organic proton-transfer ferroelectrics

Abstract

In organic proton-transfer ferroelectrics (OPTFe), molecules are linked together in a hydrogen-bonded network and proton transfer (PT) between molecules is the dominant mechanism of ferroelectric switching. Their fast switching frequencies make them attractive alternatives to conventional ceramic ferroelectrics, which contain rare and/or toxic elements, and require high processing temperatures. In this study, we mined the Cambridge Structural Database for potential OPTFes, uncovering all previously reported compounds, both tautomers and co-crystals, in addition to seven new candidate tautomers. The mining was based on identifying polar crystal structures with pseudo center-of-symmetry and viable PT paths. The spontaneous polarization and PT barriers were assessed using density functional theory.