Magnetic and optical bistability in tetrairon(III) single molecule magnets functionalized with azobenzene groups

Magnetic and optical bistability in tetrairon(III) single molecule magnets functionalized with azobenzene groups

Tetrairon(III) complexes known as "ferric stars" have been functionalized with azobenzene groups to investigate the effect of light-induced trans-cis isomerization on single-molecule magnet (SMM) behaviour. According to DC magnetic data and EPR spectroscopy, clusters dispersed in polystyre...

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Veröffentlicht in:Dalton transactions : an international journal of inorganic chemistry 2012-07, Vol.41 (27), p.8368-8378
Hauptverfasser: Prasad, Thazhe Kootteri, Poneti, Giordano, Sorace, Lorenzo, Rodriguez-Douton, Maria Jesus, Barra, Anne-Laure, Neugebauer, Petr, Costantino, Luca, Sessoli, Roberta, Cornia, Andrea
Format: Artikel
Sprache:eng
Schlagworte:
Acceleration
Atomic and Molecular Clusters
Azo Compounds - chemistry
Chemical Physics
Crystallography, X-Ray
Direct current
Electron Spin Resonance Spectroscopy
Ferric Compounds - chemistry
Irradiation
Isomerism
Ligands
Magnetic properties
Magnetics
Magnets
Molecular Conformation
Optical bistability
Physics
Polystyrene resins
Polystyrenes - chemistry
White light
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Zusammenfassung:Tetrairon(III) complexes known as "ferric stars" have been functionalized with azobenzene groups to investigate the effect of light-induced trans-cis isomerization on single-molecule magnet (SMM) behaviour. According to DC magnetic data and EPR spectroscopy, clusters dispersed in polystyrene (4% w/w) exhibit the same spin (S = 5) and magnetic anisotropy as bulk samples. Ligand photoisomerization, achieved by irradiation at 365 nm, has no detectable influence on static magnetic properties. However, it induces a small but significant acceleration of magnetic relaxation as probed by AC susceptometry. The pristine behaviour can be almost quantitatively recovered by irradiation with white light. Our studies demonstrate that magnetic and optical bistability can be made to coexist in SMM materials, which are of current interest in molecular spintronics.
ISSN:1477-9226
1477-9234
DOI:10.1039/c2dt30172e