Kenji Kitazaki scite author profile

Kenji Kitazaki

3Publications

41Citation Statements Received

1Citation Statement Given

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Kyushu University

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New spin-crossover iron(III) complexes with large hysteresis effects and time dependence of their magnetism

Oshio¹,

Kitazaki²,

Mishiro³

et al. 1987

J. Chem. Soc., Dalton Trans.

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The new complexes [ FeL' ,] CIO, (H L' = tridentate Schiff base formed by 1 : 1 condensation of o-aminophenol and pyridine-2-carbaldehyde) and [FeL2,] NCS (H L2 = tridentate Schiff base formed by 1 : 1 condensation of 8-aminoquinoline and salicylaldehyde) were synthesized. The spincrossover behaviour between S = : and : which is dependent on temperature was observed for the solid complexes using variable-temperature 57Fe Mossbauer spectral and magnetic measurements.Both compounds show a pronounced hysteresis effect in the high spin + low spin transition. For [ FeL' ,] CIO,, sharp and strong Mossbauer absorptions were observed over the temperature range examined and the effective vibrating mass, Meff., was evaluated using the high-temperature approximation of the Debye model. The value for the low-spin isomer was larger than that for the high-spin isomer. The complex [ FeL2,J NCS when freshly recrystallized below 280 K is predominantly in a low-spin state. However, the magnetism at room temperature increases with time, spin-crossover behaviour is exhibited, and the magnetism is dependent on temperature, with a pronounced hysteresis loop of about 70 K at 286 K 10 d after preparation.

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Magnetic Behavior of Spin-Crossover Iron(III) Complexes Adsorbed on the Surface of Silicon Dioxide and Metal Dilution Effects on Magnetism

Maeda¹,

Tomokiyo²,

Kitazaki³

et al. 1988

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The effects of metal dilution and adsorption on the surface of silicon dioxide on the spin-crossover behavior of [Fe(acpa)2]PF6, [Fe(acpa)2]BPh4, and [Fe(bzpa)2]PF6, which undergo fast spin-state interexchange on the 57Fe Mössbauer timescale have been studied by using 57Fe Mössbauer and EPR spectroscopies, powder X-ray diffraction and magnetic susceptibility, where Hacpa is N-(1-acetyl-2-propylidene)-2-pyridylmethylamine and Hbzpa N-(1-benzoyl-2-propylidene)-2-pyridylmethylamine. Solid solution compounds, [FexCo1−x(acpa)2]BPh4(x=0.035 and 0.074) and [Fe0.05Co0.95(bzpa)2]PF6 exhibit spin-crossover phenomena. No difference in the spin-state interexchange rate is observed between the diluted compound and the corresponding undiluted one as far as the rates are evaluated by Mössbauer spectroscopy. Mössbauer spectra for [Fe0.074Co0.926(acpa)2]PF6 exhibit only a pair of quadrupole doublets assigned to the low-spin state in the temperature range from 78 to 298 K. The spin-state interexchange rates for [Fe(acpa)2]BPh4 and [Fe(bzpa)2]PF6 adsorbed on the surface of silicon dioxide become slow compared to those for the corresponding pure complexes and the narrowing of the spin-state transition temperature range is observed. On the contrary no detectable differences in the spin-state interexchange rates are observed between the Mössbauer spectra for [Fe(acpa)2]PF6 adsorbed on the surface of silicon dioxide and that for the pure complexes. These observations are interpreted in terms of a spin-state transition behavior in these complexes which is affected by the packing state in the solid state, which is dependent on the characteristic structure of the respective complex.

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ChemInform Abstract: New Spin‐Crossover Iron(III) Complexes with Large Hysteresis Effects and Time Dependence of Their Magnetism.

et al. 1987

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237ChemInform Abstract Variable-temp. 57Fe Mössbauer spectral and magnetic measurements for the new complexes (IV) and (IX), prepared as shown (no yields given), reveal spin-crossover behavior between S = 1/2 and 5/2 which is dependent on the temperature. Both compounds show a pronounced hysteresis effect in the high spin/low spin transition. The complex (IX) when freshly recrystallized below 280 K is predominantly in alow-spin state. However, the magnetism at room temp. increases with time, spin-crossover behavior is exhibited, and the magnetism is dependent on temp. with a pronounced hysteresis loop of about 70 K at 286 K 10 d after preparation.

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Kenji Kitazaki

New spin-crossover iron(III) complexes with large hysteresis effects and time dependence of their magnetism

Magnetic Behavior of Spin-Crossover Iron(III) Complexes Adsorbed on the Surface of Silicon Dioxide and Metal Dilution Effects on Magnetism

ChemInform Abstract: New Spin‐Crossover Iron(III) Complexes with Large Hysteresis Effects and Time Dependence of Their Magnetism.

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