Magneto-Chiral Dichroism in a Chiral Twistacene Ytterbium(III) One-dimensional Assembly of Single-Molecule Magnets

IF 6.1 1区化学 Q1 CHEMISTRY, INORGANIC & NUCLEAR

Inorganic Chemistry Frontiers Pub Date : 2025-05-08 DOI:10.1039/d5qi00832h

Israa Shioukhi, Langit Cahya Adi, Vincent Dorcet, Olivier Cador, Geert Rikken, Boris Le Guennic, Jeanne Crassous, Cyrille Train, Fabrice Pointillart, Matteo Atzori, Ori Gidron

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Abstract

Here we report on one-dimensional nano objects of formula [Yb(hfac)3(M-or P-Ant-C8)]n where the Ant-C8 moiety refers to enantiopure M- and P-twistacenes decorated at positions 2,6 with 4-pyridyl-ethynyl units and helically locked into an end-to-end twist by an octyl tether. The crystal structure analysis reveals intertwined 1D nano-chains featuring two crystallographically independent Yb(III) ions. Under applied magnetic fields these systems show slow relaxation of the magnetization. The optical properties show the expected contributions of the 2F7/2 ← 2F5/2 electronic transition of the Yb(III) ions split by the crystal field. Magnetic field and temperature dependent Magneto-Chiral Dichroism (MChD) studies reveal contributions of opposite sign and similar intensity for the two crystallographically independent ions that cancel out for the 0-0’ and 0-2’ absorptions but not for the 0-1’. These findings, supported by ab intio theoretical calculations, demonstrate the important role of the structural arrangement of MChD-active ions when designing chiral magneto-optical materials responsive to light and magnetic fields.

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手性扭转烯镱（III）单分子磁体一维组装中的磁手二色性

在这里，我们报道了一维纳米物体的分子式[Yb(hfac)3(M-或P-Ant-C8)]n，其中Ant-C8部分指的是在2,6位上用4-吡啶-乙基单元修饰的对映异构M-和p -扭转体，并被辛基系链螺旋锁定为端对端扭转。晶体结构分析揭示了由两个晶体独立的Yb（III）离子组成的缠绕在一起的一维纳米链。在外加磁场作用下，这些体系表现出缓慢的磁化弛豫。光学性质显示了被晶体场分裂的Yb（III）离子的2F7/2←2F5/2电子跃迁的预期贡献。磁场和温度相关的磁手性二色性（MChD）研究表明，两种晶体独立的离子具有相反的符号和相似的强度，它们在0-0 ‘和0-2 ’吸收中抵消，但在0-1 '吸收中不抵消。这些发现得到了从头算理论计算的支持，证明了mchd活性离子的结构排列在设计响应光和磁场的手性磁光材料时的重要作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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