Realization of sextuple polarization states and interstate switching in antiferroelectric CuInP2S6

Abstract

Abstract Realization of higher-order multistates with mutual interstate switching in ferroelectric materials is a perpetual drive for non-Boolean high-density storage devices and beyond-Moore technologies. Here we demonstrate experimentally that antiferroelectric van der Waals CuInP2S6 films can be controllably stabilized into double, quadruple, and sextuple polarization states, and a system harboring polarization order of six is also reversibly tunable into order of four or two. Furthermore, for a given polarization order, mutual interstate switching can be achieved via moderate electric field modulation. First-principles studies of CuInP2S6 multilayers help to reveal that the double, quadruple, and sextuple states are attributable to the existence of respective single, double, and triple ferroelectric domains with antiferroelectric interdomain coupling and Cu ion migration, as also corroborated by explicit ferroelectric exchange bias analysis. These findings offer appealing platforms for developing novel multistate ferroelectric devices, while the underlining mechanism is transformative to other non-volatile material systems.