Temperature-Driven Axial-Equatorial Isomerism and Magnetic Relaxation on Low-Spin Co(II) Borohydride Complexes

IF 5.5 1区化学 Q2 CHEMISTRY, MULTIDISCIPLINARY

Chinese Journal of Chemistry Pub Date : 2024-11-25 DOI:10.1002/cjoc.202400947

Jing-Yu Wang, Zhen Li, Lu Zhang, Yan-Cong Chen, Ze-Yu Ruan, Shan-Nan Du, Wei Deng, Si-Guo Wu, Jun-Liang Liu, Ming-Liang Tong

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引用次数: 0

Abstract

Crystalline materials with diastereomerism serve as ideal prototypes for investigating the influence of coordination environments on chemophysical properties. In this study, we synthesized a pair of axial-equatorial isomers [Co(II)(HB(tim^tBu)₃)(cis-dppen)](BF₄)·solv ([HB(tim^tBu)₃]⁻ = hydrotris(3-tertbutyl-2-thioxoimidazol-1-yl)borate; cis-dppen = cis-1,2-bis(diphenylphosphino)ethene; solv = 0.5THF·2H₂O and 2H₂O for ax-CoHS₂P₂ and eq-CoHS₂P₂, respectively), by varying the crystallization temperatures. Despite both diastereoisomers adopting distorted square pyramidal geometries, the bidentate cis-dppen ligand chelates to the central Co(II) either in an axial-equatorial or equatorial-equatorial manner, with a boron-hydrogen binding to the metal center. Magnetic studies reveal differences in g-values between these axial-equatorial isomers. X-band electron paramagnetic resonance spectra suggest rapid equilibrium and potential conformational interconversion in response to temperature changes in solution. Magnetic measurements indicate field-induced slow relaxation of magnetization in this low-spin S = 1/2 system, with spin-lattice relaxations dominated by Raman and quantum tunneling of magnetization mechanisms due to the absence of thermally populated excited states.

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低自旋Co（II）硼氢化物配合物的温度驱动轴-赤道异构和磁弛豫

具有非对映异构的晶体材料是研究配位环境对化学物理性质影响的理想原型。在这项研究中，我们合成了一对轴赤道异构体[Co(II)(HB(timtBu)3)（顺式-dppen）]（BF4）·溶剂([HB(timtBu)3]−=氢化硼酸盐（3-叔丁基-2-硫氧咪唑-1-基）；顺式-1,2-双（二苯基膦）乙烯；（ax-CoHS2P2和eq-CoHS2P2分别为solv = 0.5THF·2H2O和2H2O），通过改变结晶温度。尽管这两种非对映异构体都采用扭曲的方锥体几何形状，但双齿顺式dppen配体以轴-赤道或赤道-赤道的方式与中心Co（II）螯合，并与金属中心的硼氢结合。磁研究揭示了这些轴-赤道异构体之间g值的差异。x波段电子顺磁共振谱显示了溶液温度变化的快速平衡和潜在的构象相互转换。磁测量表明，在这个低自旋S = 1/2的体系中，由于缺乏热填充激发态，自旋晶格弛豫主要由拉曼和量子隧穿磁化机制主导。

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来源期刊

Chinese Journal of Chemistry 化学-化学综合

CiteScore

8.80

自引率

14.80%

发文量

422

审稿时长

1.7 months

期刊介绍： The Chinese Journal of Chemistry is an international forum for peer-reviewed original research results in all fields of chemistry. Founded in 1983 under the name Acta Chimica Sinica English Edition and renamed in 1990 as Chinese Journal of Chemistry, the journal publishes a stimulating mixture of Accounts, Full Papers, Notes and Communications in English.