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Effect of ligand substitution on the exchange interactions in {Mn12}-type single-molecule magnets

We investigate how the ligand substitution affects the intra-molecular spin exchange interactions, studying a prototypal family of single-molecule magnets comprising dodecanuclear cluster molecules [Mn12O12(COOR)16]. We identify a simple scheme based on accumulated Pauling electronegativity numbers (a.e.n.) of the carboxylate ligand groups (R). The redistribution of the electron density, controlled by a.e.n. of a ligand, changes the degree of hybridization between 3d electrons of manganese and 2p electrons of oxygen atoms, thus changing the exchange interactions. This scheme, despite its conceptual simplicity, provides a strong correlation with the exchange energies associated with carboxylate bridges, and is confirmed by the electronic structure calculations taking into account the Coulomb correlations in magnetic molecules.

preprint2010arXivOpen access
D. W. BoukhvalovV. V. DobrovitskiP. KögerlerM. Al-SaqerM. I. KatsnelsonA. I. LichtensteinB. N. Harmon
cond-mat.str-el
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D. W. BoukhvalovV. V. DobrovitskiP. KögerlerM. Al-SaqerM. I. KatsnelsonA. I. LichtensteinB. N. Harmon

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