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Tuning the Ferrotoroidic Coupling and Magnetic Hysteresis in Double‐Triangle Complexes {Dy<sub>3</sub>M<sup>III</sup>Dy<sub>3</sub>} via the M<sup>III</sup>‐linker

Jared M. Ashtree, Ivana Borilović, Kuduva R. Vignesh, Abinash Swain, Sarah H. Hamilton, Yasmin L. Whyatt, Sophie L. Benjamin, Wasinee Phonsri, Craig M. Forsyth, Wolfgang Wernsdorfer, Alessandro Soncini, Gopalan Rajaraman, Stuart K. Langley, Keith S. Murray

2020European Journal of Inorganic Chemistry26 citationsDOIOpen Access PDF

Abstract

Abstract We present the syntheses, structures, magnetic data and theoretical analyses for two families of heptanuclear clusters, wherein two staggered dysprosium(III) triangles are linked by various M(III) d‐/p‐block ions. The families differ in the counter‐anion and are of formulae [Dy III 6 M III (OH) 8 ( o ‐tol) 12 (MeOH) 5 (NO 3 )] ⋅ 4MeOH and [Dy III 6 M III (OH) 8 ( o ‐tol) 12 (MeOH) 6 ]Cl ⋅ 6MeOH (M=Cr, Mn, Fe, Co, Al; o ‐tol= o ‐toluate). We find that variation of the central metal ion M is crucial in tuning the toroidal moments on the triangular units, with diamagnetic M linking ions enhancing the ferrotoroidic coupling. By detailed simulation and analysis of various magnetic measurements, including sub‐kelvin microSquid hysteresis loops, we identified the specific signature of the M linking ions’ modulation of toroidal properties, including the mechanism whereby anisotropic, paramagnetic M ions lead to hysteresis profiles with larger remnant magnetisations and broader coercive fields.

Topics & Concepts

ChemistryDysprosiumDiamagnetismIonParamagnetismCrystallographyMagnetic hysteresisHysteresisCoupling (piping)CoercivityAnalytical Chemistry (journal)Inorganic chemistryMagnetizationMagnetic fieldCondensed matter physicsPhysicsMaterials scienceQuantum mechanicsMetallurgyOrganic chemistryChromatographyMagnetism in coordination complexesLanthanide and Transition Metal ComplexesAdvanced NMR Techniques and Applications
Tuning the Ferrotoroidic Coupling and Magnetic Hysteresis in Double‐Triangle Complexes {Dy<sub>3</sub>M<sup>III</sup>Dy<sub>3</sub>} via the M<sup>III</sup>‐linker | Litcius