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A family of ionic supersalts with covalent-like directionality and unconventional multiferroicity

Yaxin Gao, Menghao Wu, Puru Jena

2021Nature Communications34 citationsDOIOpen Access PDF

Abstract

Abstract Ionic crystals composed of elemental ions such as NaCl are non-polar due to directionless ionic bonding interactions. Here, we show that these can develop polarity by changing their building blocks from elemental ions to superalkali and superhalogen cluster-ions, which mimic the chemistry of alkali and halogen atoms, respectively. Due to the non-spherical geometries of these cluster ions, corresponding supersalts form anisotropic polar structures with ionic bonding, yet covalent-like directionality, akin to sp 3 hybridized systems. Using density functional theory and extensive structure searches, we predict a series of stable ferroelectric/ferroelastic supersalts, PnH 4 MX 4 (Pn = N, P; M = B, Al, Fe; X = Cl, Br) composed of superalkali PnH 4 and superhalogen MX 4 ions. Unlike traditional ferroelectric/ferroelastic materials, the cluster-ion based supersalts possess ultra-low switching barrier and can endure large ion displacements and reversible strain. In particular, PH 4 FeBr 4 exhibits triferroic coupling of ferroelectricity, ferroelasticity, and antiferromagnetism with controllable spin directions via either ferroelastic or 90-degree ferroelectric switching.

Topics & Concepts

Ionic bondingFerroelectricityIonCovalent bondCluster (spacecraft)Density functional theoryCrystallographyFerroelasticityAntiferromagnetismMaterials scienceChemical physicsAlkali metalChemistryComputational chemistryCondensed matter physicsDielectricPhysicsOptoelectronicsOrganic chemistryProgramming languageComputer scienceInorganic Chemistry and MaterialsInorganic Fluorides and Related CompoundsFerroelectric and Piezoelectric Materials