远程取代基对五配位Fe(III)配合物慢磁弛豫的影响。
Effect of the Distant Substituent to Slow Magnetic Relaxation of Pentacoordinate Fe(III) Complexes.
作者信息
Rajnák Cyril, Titiš Ján, Moncol' Ján, Valigura Dušan, Boča Roman
机构信息
Department of Chemistry, Faculty of Natural Sciences, University of Ss. Cyril and Methodius, 917 01 Trnava, Slovakia.
Institute of Inorganic Chemistry, FCHPT, Slovak University of Technology, 812 37 Bratislava, Slovakia.
出版信息
Inorg Chem. 2020 Oct 19;59(20):14871-14878. doi: 10.1021/acs.inorgchem.0c00647. Epub 2020 Sep 30.
Pentacoordinate Fe(III) complexes [Fe(L)X] and [Fe(L)X], X = Cl and Br, show the slow magnetic relaxation that is enhanced by the applied static magnetic field. A substitution of the distant ethoxy group to the methoxy group residing at the phenyl ring of a Schiff base N,O-donor ligand (L vs L) considerably influences the relaxation characteristics. In the chlorido complex [Fe(L)Cl], the following three slow relaxation channels are recognized as possessing different relaxation times: τ = 0.47 s, τ = 13 ms, and τ = 26 μs at the static field = 0.2 T and = 1.9 K. In the bromido complex [Fe(L)Br], only the following two relaxation channels are seen: τ = 0.30 ms and τ = 139 μs at = 0.15 T and = 1.9 K. Due to > 0, the Orbach relaxation mechanism does not apply, and the temperature dependence of the high-frequency relaxation time can be described by two Raman-like terms.
五配位铁(III)配合物[Fe(L)X]和[Fe(L)X],X = Cl和Br,表现出缓慢的磁弛豫,且这种弛豫会被外加静磁场增强。席夫碱N,O供体配体(L对L)苯环上的远程乙氧基被甲氧基取代,这对弛豫特性有很大影响。在氯配合物[Fe(L)Cl]中,以下三个缓慢弛豫通道被认为具有不同弛豫时间:在静磁场 = 0.2 T和 = 1.9 K时,τ = 0.47 s,τ = 13 ms,以及τ = 26 μs。在溴配合物[Fe(L)Br]中,仅观察到以下两个弛豫通道:在 = 0.15 T和 = 1.9 K时,τ = 0.30 ms和τ = 139 μs。由于 > 0,奥巴赫弛豫机制不适用,高频弛豫时间的温度依赖性可用两个类似拉曼的项来描述。
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