Optical Control of Magnetic Properties by Use of Self-Assembled Films

Y. Einaga, O. Sato, A. Fujishima, K. Hashimoto
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Abstract

Intercalation of inorganic materials into organized organic assemblies provides possibility for developing new functional materials possessing superior physicochemical properties. A composite material consisting of Prussian blue intercalated into photo-responsive organic molecules (azobenzene-containing multibilayer vesicles) was made. Photoisomerization of the film was attended with geometrically confined structural change within the vesicles as reflefted by changes in dipole moment and electrostatic field. It was consequently possible to control the magnetic properties of the new material by photo-illumination, as well as magnetic properties of photo-isomerizable nano-film containing iron oxide particle by photoillumination at room temperature.
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利用自组装薄膜对磁性能进行光学控制
将无机材料嵌入到有组织的有机组件中,为开发具有优越物理化学性能的新功能材料提供了可能。制备了一种由普鲁士蓝嵌入光响应有机分子(含偶氮苯的多层囊泡)的复合材料。在光异构化过程中,偶极矩和静电场的变化反映了膜内的几何结构变化。因此,可以通过光照明来控制新材料的磁性能,也可以通过室温光照明来控制含氧化铁颗粒的光异构纳米膜的磁性能。
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