Guan-Lin Lu, Shih-Ting Chiu, Jérôme Long* and Po-Heng Lin*,
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引用次数: 0
摘要
本研究介绍了两种新型异金属四核配合物 [M2Dy2(Hheb)2(heb)4]-4MeOH(H2heb = (E)-N′-(1-(2-hydroxyphenyl)ethylidene)benzohydrazide; M = Ni (1), Cu(2))的设计、合成和磁性表征。这些配合物在刚性 Hheb/heb2- 配体的诱导下呈现出罕见的之字形核心拓扑结构。加入的 3d 金属离子(Ni2+ 和 Cu2+)与磁性之间存在微妙的相互作用。值得注意的是,3d 金属的选择在调节 Dy3+ 离子的配位环境和轴向性方面起着至关重要的作用,理论计算也证明了这一点。虽然两种复合物都表现出快速的磁化量子隧道效应(QTM),但与复合物 2 相比,复合物 1(Ni2+)表现出明显增强的缓慢弛豫动力学。这种差异归因于络合物 1 中 Ni2+ 间接诱导的较强轴向性,而络合物 2 中 Cu2+ 诱导的畸变和铁磁相互作用对缓慢弛豫行为产生了负面影响。
Fine-Tuning of Magnetic Anisotropy in Tetranuclear M2Dy2 Complexes with Zig-Zag Topology: The Impact of 3d Metal Selection
This study presents the design, synthesis, and magnetic characterization of two novel heterometallic tetranuclear complexes, [M2Dy2(Hheb)2(heb)4]·4MeOH (H2heb = (E)-N′-(1-(2-hydroxyphenyl)ethylidene)benzohydrazide; M = Ni (1), Cu(2)). These complexes exhibit a rare zig-zag core topology induced by the rigid Hheb/heb2– ligands. A subtle interplay between the incorporated 3d metal ions (Ni2+ and Cu2+) and the magnetic properties is evidenced. Notably, the choice of the 3d metal plays a crucial role in modulating the Dy3+ ion’s coordination environment and axiality, as supported by theoretical calculations. While both complexes exhibit rapid Quantum Tunneling of Magnetization (QTM), complex 1 (Ni2+) demonstrates markedly enhanced slow relaxation dynamics compared to complex 2. This difference is attributed to the stronger axiality indirectly induced by Ni2+ in complex 1, whereas the Cu2+-induced distortions and ferromagnetic interactions in complex 2 negatively affect the slow relaxation behavior.
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