1. Selective Stabilization of the Spin States of a Magnetically Anisotropic Dysprosium Ion Induced by Photo‐Excitation of the Associated Cyclic π‐Conjugated System
- Author
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Kazuro Kizaki, Hideaki Ozawa, Naoto Ishikawa, Yutaro Sakaguchi, Akira Fuyuhiro, Toshiya Kobayashi, and Takamitsu Fukuda
- Subjects
Angular momentum ,Spin states ,Chemistry ,Magnetic circular dichroism ,Organic Chemistry ,chemistry.chemical_element ,02 engineering and technology ,General Chemistry ,010402 general chemistry ,021001 nanoscience & nanotechnology ,01 natural sciences ,Molecular physics ,Catalysis ,0104 chemical sciences ,Ion ,Nuclear magnetic resonance ,Total angular momentum quantum number ,Excited state ,Dysprosium ,0210 nano-technology ,Excitation - Abstract
The presence of a new electronic interaction, which couples a 4 f-electronic system with a total angular momentum J and a photoexcited cyclic π-conjugated system with an orbital angular momentum L, in the bis(phthalocyaninato)dysprosium single-molecule magnet ([DyPc2 ]- ) is reported. Two π-π* excited states in the visible spectral region of the [DyPc2 ]- complex, which are denoted here as QL and QH , showed significantly different temperature and field dependences of the magnetic circular dichroism (MCD) A-term intensity. This phenomenon not only indicates the presence of a "J-L" interaction, but also that the interaction generates two different preferred orientations of the J-L pair, either parallel (for the QH band) or antiparallel (for the QL band), depending on the excitation energy. We have constructed a theoretical model that reproduces the temperature and field dependences, and quantitatively evaluated the J-L interaction.
- Published
- 2017
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