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镧系冠醚配合物中的缓慢磁弛豫:拉曼和反常声子瓶颈过程的相互作用。

Slow Magnetic Relaxation in Lanthanoid Crown Ether Complexes: Interplay of Raman and Anomalous Phonon Bottleneck Processes.

机构信息

School of Chemistry, University of Melbourne, Victoria, 3010, Australia.

UdR INSTM and Department of Chemistry "U. Schiff", University of Florence, 50019, Sesto Fiorentino (FI), Italy.

出版信息

Chemistry. 2018 Oct 1;24(55):14768-14785. doi: 10.1002/chem.201802779. Epub 2018 Sep 17.

DOI:10.1002/chem.201802779
PMID:29992641
Abstract

The combination of lanthanoid nitrates with 18-crown-6 (18-c-6) and tetrahalocatecholate (X Cat , X=Cl, Br) ligands has afforded two compound series [Ln(18-c-6)(X Cat)(NO )]⋅MeCN (X=Cl, 1-Ln; X=Br, 2-Ln; Ln=La, Ce, Nd, Gd, Tb, Dy). The 18-c-6 ligands occupy equatorial positions of a distorted sphenocorona geometry, whereas the charged ligands occupy the axial positions. The analogues of both series with Ln=Ce, Nd, Tb and Dy exhibit out-of-phase ac magnetic susceptibility signals in the presence of an applied magnetic field, indicative of slow magnetization relaxation. When diluted into a diamagnetic La host to reduce dipolar interactions, the Dy analogue exhibits slow relaxation up to 20 K in the absence of an applied dc field. Concerted magnetic measurements, EPR spectroscopy, and ab initio calculations have allowed elucidation of the mechanisms responsible for slow magnetic relaxation. A consistent approach has been applied to quantitatively model the relaxation data for different lanthanoid analogues, suggesting that the spin dynamics are governed by Raman processes at higher temperatures, transitioning to a dominant phonon bottleneck process as the temperature is decreased, with an observed T rather than the usual T dependence (T is temperature). This anomalous thermal dependence of the phonon bottleneck relaxation is consistent with anharmonic effects in the lattice dynamics, which was predicted by Van Vleck more than 70 years ago.

摘要

镧系硝酸盐与 18-冠-6(18-c-6)和四卤代邻苯二甲酸盐(X Cat,X=Cl,Br)配体的组合提供了两个化合物系列[Ln(18-c-6)(X Cat)(NO 3 )]⋅MeCN(X=Cl,1-Ln;X=Br,2-Ln;Ln=La,Ce,Nd,Gd,Tb,Dy)。18-c-6 配体占据扭曲的 sphenocorona 几何的赤道位置,而带电配体占据轴向位置。Ln=Ce、Nd、Tb 和 Dy 的两个系列的类似物在施加磁场时表现出反相交流磁化率信号,表明缓慢的磁化弛豫。当稀释到 La 主体中以减少偶极相互作用时,在没有施加直流场的情况下,Dy 类似物在 20 K 以下表现出缓慢的弛豫。协同磁测量、EPR 光谱和从头计算允许阐明导致缓慢磁弛豫的机制。已经应用一致的方法来定量模拟不同镧系元素类似物的弛豫数据,表明自旋动力学在较高温度下受 Raman 过程控制,随着温度降低,过渡到主要的声子瓶颈过程,观察到 T 依赖性而不是通常的 T 依赖性(T 是温度)。这种声子瓶颈弛豫的异常热依赖性与晶格动力学中的非谐效应一致,Van Vleck 在 70 多年前就预测了这种非谐效应。

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