Probing the origin of magnetic anisotropy in a dinuclear {Mn IIICuII} single-molecule magnet: The role of exchange anisotropy

Saurabh Kumar Singh; Gopalan Rajaraman

doi:10.1002/chem.201304357

Probing the origin of magnetic anisotropy in a dinuclear {Mn ^IIICu^II} single-molecule magnet: The role of exchange anisotropy

Saurabh Kumar Singh, Gopalan Rajaraman

Research output: Contribution to journal › Article › peer-review

36 Scopus citations

Abstract

Using ab initio calculations all the components of the magnetic anisotropy in a dinuclear [Mn^IIICu^IICl(5-Br-sap)₂(MeOH)] single-molecule magnet (SMM) have been computed. These calculations reveal that apart from the single-ion anisotropy, the exchange anisotropy also plays a crucial role in determining the sign as well as the magnitude of the cluster anisotropy. Developed magneto-structural correlations suggest that a large ferromagnetic exchange can in fact reduce the ground-state anisotropy, which is an integral component in the design of SMMs. Zero-field splitting: This study answers the question of whether single-ion anisotropy is always important in the design of single-molecule magnets (SMMs). Ab initio CASSCF studies unfold the role of exchange anisotropy in controlling the effective energy barrier (U _eff) of SMMs.

Original language	English (US)
Pages (from-to)	5214-5218
Number of pages	5
Journal	Chemistry - A European Journal
Volume	20
Issue number	18
DOIs	https://doi.org/10.1002/chem.201304357
State	Published - Apr 25 2014
Externally published	Yes

Keywords

Bailar twist
Jahn-Teller distortion
exchange anisotropy
magnetic properties
zero-field splitting

Publisher link

10.1002/chem.201304357

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title = "Probing the origin of magnetic anisotropy in a dinuclear {Mn IIICuII} single-molecule magnet: The role of exchange anisotropy",

abstract = "Using ab initio calculations all the components of the magnetic anisotropy in a dinuclear [MnIIICuIICl(5-Br-sap)2(MeOH)] single-molecule magnet (SMM) have been computed. These calculations reveal that apart from the single-ion anisotropy, the exchange anisotropy also plays a crucial role in determining the sign as well as the magnitude of the cluster anisotropy. Developed magneto-structural correlations suggest that a large ferromagnetic exchange can in fact reduce the ground-state anisotropy, which is an integral component in the design of SMMs. Zero-field splitting: This study answers the question of whether single-ion anisotropy is always important in the design of single-molecule magnets (SMMs). Ab initio CASSCF studies unfold the role of exchange anisotropy in controlling the effective energy barrier (U eff) of SMMs.",

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AB - Using ab initio calculations all the components of the magnetic anisotropy in a dinuclear [MnIIICuIICl(5-Br-sap)2(MeOH)] single-molecule magnet (SMM) have been computed. These calculations reveal that apart from the single-ion anisotropy, the exchange anisotropy also plays a crucial role in determining the sign as well as the magnitude of the cluster anisotropy. Developed magneto-structural correlations suggest that a large ferromagnetic exchange can in fact reduce the ground-state anisotropy, which is an integral component in the design of SMMs. Zero-field splitting: This study answers the question of whether single-ion anisotropy is always important in the design of single-molecule magnets (SMMs). Ab initio CASSCF studies unfold the role of exchange anisotropy in controlling the effective energy barrier (U eff) of SMMs.

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KW - zero-field splitting

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