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层状杂化结构中阴离子自由基[Ni(dmit)]与铁(III)自旋交叉配合物[Fe(III)(3-OMe-Saltrien)]和铁部分前体交替排列的磁导率、电导率和自旋-自旋相互作用。

Magnetism, Conductivity and Spin-Spin Interactions in Layered Hybrid Structure of Anionic Radicals [Ni(dmit)] Alternated by Iron(III) Spin-Crossover Complex [Fe(III)(3-OMe-Saltrien)] and Ferric Moiety Precursors.

机构信息

M.N. Miheev Institute of Metal Physics UB RAS, 620108 Yekaterinburg, Russia.

Institute of Problems of Chemical Physics RAS, 142432 Chernogolovka MD, Russia.

出版信息

Molecules. 2020 Oct 24;25(21):4922. doi: 10.3390/molecules25214922.

DOI:10.3390/molecules25214922
PMID:33114397
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7663777/
Abstract

In this study, crystals of the hybrid layered structure, combined with Fe(III) Spin-Crossover (SCO) complexes with metal-dithiolate anionic radicals, and the precursors with nitrate and iodine counterions, are obtained and characterized. [Fe(III)(3-OMe-Saltrien)][Ni(dmit)] (), [Fe(III)(3-OMe-Saltrien)]NO·HO (), [Fe(III)(3-OMe-Saltrien)]I () (3-OMe-Saltrien = hexadentate NO Schiff base is the product of the condensation of triethylenetetramine with 3-methoxysalicylaldehyde; Hdmit = 2-thioxo-1,3-dithiole-4,5-dithiol). Bulk SCO transition was not achieved in the range 2.0-350 K for all three compounds. Alternatively, the hybrid system () exhibited irreversible segregation into the spatial fractions of Low-Spin (LS) and High-Spin (HS) phases of the ferric moiety, induced by thermal cycling. Fractioning was studied using both SQUID and EPR methods. Magnetic properties of the LS and HS phases were analyzed in the framework of cooperative interactions with anionic sublattice: Anion radical layers Ni(dmit) (), and H-bonded chains with NO and I (,). LS phase of () exhibited unusual quasi-two-dimensional conductivity related to the Arrhenius mechanism in the anion radical layers, = 2 × 10 Ohm·cm and = 7 × 10 Ohm·cm at 293 K. Ground spin state of the insulating HS phase was distinctive by ferromagnetically coupled spin pairs of HS Fe, = 5/2, and metal-dithiolate radicals, = 1/2.

摘要

在这项研究中,获得并表征了具有金属-二硫代酸盐阴离子自由基的混合层状结构的 Fe(III) 自旋交叉 (SCO) 配合物的晶体以及带有硝酸盐和碘化物抗衡离子的前体。[Fe(III)(3-OMe-Saltrien)]Ni(dmit),[Fe(III)(3-OMe-Saltrien)]NO·HO(),[Fe(III)(3-OMe-Saltrien)]I()(3-OMe-Saltrien = 六齿配位体 NO 希夫碱是三乙烯四胺与 3-甲氧基水杨醛缩合的产物;Hdmit = 2-硫代-1,3-二噻唑-4,5-二硫醇)。所有三种化合物在 2.0-350 K 的范围内都未实现体 SCO 转变。相反,混合体系()通过热循环表现出不可逆的铁部分向低自旋(LS)和高自旋(HS)相的空间分数分离。使用 SQUID 和 EPR 方法研究了分馏。LS 和 HS 相的磁性质在与阴离子亚晶格的协同相互作用框架内进行了分析:阴离子自由基层 Ni(dmit)(),以及具有 NO 和 I 的氢键链()。()的 LS 相表现出与阴离子自由基层中的 Arrhenius 机制相关的异常准二维导电性,在 293 K 时为 2×10 欧姆·厘米和 7×10 欧姆·厘米。绝缘 HS 相的基态自旋状态的特点是 HS Fe 的铁磁耦合自旋对,= 5/2,以及金属-二硫代酸盐自由基,= 1/2。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5211/7663777/a18a785f3d93/molecules-25-04922-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5211/7663777/8268a96dc7d7/molecules-25-04922-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5211/7663777/467a692b1681/molecules-25-04922-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5211/7663777/a18a785f3d93/molecules-25-04922-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5211/7663777/8268a96dc7d7/molecules-25-04922-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5211/7663777/467a692b1681/molecules-25-04922-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5211/7663777/a18a785f3d93/molecules-25-04922-g004.jpg

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