Single molecule magnet with an unpaired electron trapped between two lanthanide ions inside a fullerene

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Abstract

Increasing the temperature at which molecules behave as single-molecule magnets is a serious challenge in molecular magnetism. One of the ways to address this problem is to create the molecules with strongly coupled lanthanide ions. In this work, endohedral metallofullerenes Y 2 @C 80 and Dy 2 @C 80 are obtained in the form of air-stable benzyl monoadducts. Both feature an unpaired electron trapped between metal ions, thus forming a single-electron metal-metal bond. Giant exchange interactions between lanthanide ions and the unpaired electron result in single-molecule magnetism of Dy 2 @C 80 (CH 2 Ph) with a record-high 100 s blocking temperature of 18 K. All magnetic moments in Dy 2 @C 80 (CH 2 Ph) are parallel and couple ferromagnetically to form a single spin unit of 21 μ B with a dysprosium-electron exchange constant of 32 cm -1. The barrier of the magnetization reversal of 613 K is assigned to the state in which the spin of one Dy centre is flipped.

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Liu, F., Krylov, D. S., Spree, L., Avdoshenko, S. M., Samoylova, N. A., Rosenkranz, M., … Popov, A. A. (2017). Single molecule magnet with an unpaired electron trapped between two lanthanide ions inside a fullerene. Nature Communications, 8. https://doi.org/10.1038/ncomms16098

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