ARCHER, Rosanna; SCOTT, Hayley; POLSON, Matthew I.J.; MATHONIÈRE, Corine; ROUZIÈRES, Mathieu; CLÉRAC, Rodolphe; KRUGER, Paul

doi:10.1002/asia.201900522

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ARCHER, Rosanna
University of Canterbury [Christchurch]
MacDiarmid Institute for Advanced Materials and Nanotechnology

SCOTT, Hayley
University of Canterbury [Christchurch]
MacDiarmid Institute for Advanced Materials and Nanotechnology

POLSON, Matthew I.J.
School of Physical and Chemical Sciences [Christchurch]

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Chemistry - An Asian Journal. 2019-06-11, vol. 14, p. pp. 2225-2229

Wiley-VCH Verlag

Résumé en anglais

The synthesis and physico-chemical characterization of an FeII complex [Fe(L1)3](ClO4)2·CH3CN·0.5H2O, 1, incorporating a bidentate imidazolylimine-based ligand are reported. Complex 1 crystallises as the mer-isomer and the crystal lattice is replete with hydrogen bonding interactions between ClO4! anions, solvent molecules and imidazole N-H groups. Variable-temperature structural, magnetic, photomagnetic and optical reflectivity techniques have been deployed to fully characterise the spin-crossover (SCO) behaviour in 1 along with its desolvated phase, 1·desolv. Variable-temperature (1.8–300 K) magnetic- susceptibility measurements reveal a broad two-step full SCO for 1 (T1/2=158 and 184 K) and photomagnetic experiments at 10 K under white-light irradiation revealed complete photo-induced SCO. 1·desolv displays considerably different magnetic behaviour with sharp single-stepSCO accompanied by a thermal hysteresis (T1/2›=105 K, T1/2fl=95 K) in addition to full photo-induced SCO at lower temperatures.< Réduire

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Molecular magnetism

Photomagnetism

Solventeffects

Spin-crossover

Supramolecular

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Solvent Dependent Spin‐Crossover and Photomagnetic Properties in an Imidazolylimine FeII Complex

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