Structure and Magnetic Properties of a Series of Heptanuclear Ln3Mn4 Molecular Clusters Constructed with Phenyl-salicylaldoxime: Observation of a Significant Magnetocaloric Effect in Gd3Mn4

IF 3.2 2区化学 Q2 CHEMISTRY, MULTIDISCIPLINARY

Crystal Growth & Design Pub Date : 2025-04-29 DOI:10.1021/acs.cgd.5c0019910.1021/acs.cgd.5c00199

Congwu Qin, Changlong Zhou, Feng Pan, Rong Sun, Xiaofei Zhu*, Bing-Wu Wang* and Song Gao*,

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引用次数: 0

Abstract

Magnetic polymetallic cluster compounds, with their variable structures and intricate magnetic properties, have garnered sustained interest in molecular magnetism. In this study, we constructed a series of isostructural heptanuclear 3d–4f clusters using phenyl-salicylaldoxime as a multidentate ligand, represented by the general formula [Ln₃Mn₄] (Ln = Gd, Dy, Tb, Er, and Y for 1Gd, 2Dy, 3Tb, 4Er, and 5Y, respectively). Comprehensive crystallographic analyses and static magnetism studies were performed on these compounds. The magnetic investigations indicate that at low temperatures and high fields, the metal ions exhibit parallel alignment of magnetic moments, resulting in a large spin value. Notably, 1Gd displayed a significant magnetocaloric effect (MCE) owing to its high ground-state spin and robust temperature and field responsiveness, with a magnetic entropy change (−ΔS_m) of 20.99 J kg^–1 K^–1 at 50 kOe and 6.0 K in the range of measurements, highlighting its potential as a promising candidate for magnetic refrigeration applications.

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苯基水杨醛肟构建的一系列七核Ln3Mn4分子簇的结构和磁性：Gd3Mn4中显著磁热效应的观察

磁性多金属团簇化合物以其多变的结构和复杂的磁性引起了分子磁学领域的持续关注。在本研究中，我们以苯基水杨醛肟为多齿配体构建了一系列同结构的七核3d-4f簇，用通式[Ln3Mn4]表示（对于1Gd、2Dy、3Tb、4Er和5Y， Ln分别= Gd、Dy、Tb、Er和Y）。对这些化合物进行了全面的晶体学分析和静磁研究。磁性研究表明，在低温和强磁场下，金属离子呈现磁矩平行排列，导致自旋值较大。值得注意的是，由于其高基态自旋和强大的温度和场响应性，1Gd显示出显著的磁热效应（MCE），在50 kOe和6.0 K的测量范围内，磁熵变化（−ΔSm）为20.99 J kg-1 K - 1，突出了它作为磁制冷应用的有希望的候选者的潜力。

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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来源期刊

Crystal Growth & Design 化学-材料科学：综合

CiteScore

6.30

自引率

10.50%

发文量

650

审稿时长

1.9 months

期刊介绍： The aim of Crystal Growth & Design is to stimulate crossfertilization of knowledge among scientists and engineers working in the fields of crystal growth, crystal engineering, and the industrial application of crystalline materials. Crystal Growth & Design publishes theoretical and experimental studies of the physical, chemical, and biological phenomena and processes related to the design, growth, and application of crystalline materials. Synergistic approaches originating from different disciplines and technologies and integrating the fields of crystal growth, crystal engineering, intermolecular interactions, and industrial application are encouraged.