Deciphering the origin of giant magnetic anisotropy and fast quantum tunnelling in Rhenium(IV) single-molecule magnets

Deciphering the origin of giant magnetic anisotropy and fast quantum tunnelling in Rhenium(IV) single-molecule magnets

Rhenium(IV) complexes are magnetically anisotropic although the origin of this anisotropy is poorly explored compared to 3dtransition metals and lanthanides. Here, the authors computationally examine the effects of ligand donor ability and structural distortion on magnetic anisotropy for a series of...

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Auteurs principaux: Saurabh Kumar Singh, Gopalan Rajaraman
Format: article
Langue:EN
Publié: Nature Portfolio 2016
Sujets:
Science
Q
Accès en ligne:https://doaj.org/article/ac2732a2fb024a69b7b0dae4dfc5ddb4
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Résumé:Rhenium(IV) complexes are magnetically anisotropic although the origin of this anisotropy is poorly explored compared to 3dtransition metals and lanthanides. Here, the authors computationally examine the effects of ligand donor ability and structural distortion on magnetic anisotropy for a series of rhenium(IV) complexes.

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