Chiral, single-molecule nanomagnets: synthesis, magnetic characterization and natural and magnetic circular dichroism - Concepedia

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Chiral, single-molecule nanomagnets: synthesis, magnetic characterization and natural and magnetic circular dichroism

52

Citations

49

References

2004

Year

Philippe Gerbier, Neus Domingo, Jordi Gómez‐Segura, Daniel Ruiz‐Molina, David B. Amabilino, J. Tejada, Bryce E. Williamson, Jaume Veciana

Journal of Materials Chemistry

Magnetic PropertiesEngineeringMagnetic ResonanceAcetate CompoundsOrganic ChemistryChemistryMagnetic MaterialsMagnetismMagnetic CharacterizationMolecular MagnetismMaterials SciencePhysicsNanotechnologySingle-molecule MagnetsLow-dimensional SystemsSingle-molecule NanomagnetsSupramolecular ChemistryMagnetic MaterialChiral Dodecamanganese ClustersMolecule-based MagnetNanomaterialsMagnetic Circular DichroismNatural SciencesCluster ChemistryMolecule-based MaterialFunctional MaterialsNanomagnetism

Abstract

The first three chiral dodecamanganese clusters that behave as single-molecule magnets are reported. All reveal natural optical activity, which is stronger for the 2-chloropropionate derivative than for either the (S)-6-methoxy-α-methyl-2-naphthaleneacetate or the (S)-2-phenylbutyric acetate compounds. For the cluster with 2-chloropropionate moieties at its periphery, the magnetic circular dichroism was investigated and found to display large optical hysteresis, which depends on the direction in which the magnetic field direction is swept.

References

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