通过精细调整局域对称性，在单离子磁体中获得创纪录的阻塞温度和磁剩磁。

Fine-tuning the local symmetry to attain record blocking temperature and magnetic remanence in a single-ion magnet.

机构信息

Theory of Nanomaterials Group and INPAC-Institute of Nanoscale Physics and Chemistry, Katholieke Universiteit Leuven, Celestijenlaan 200F, 3001 Leuven (Belgium).

出版信息

Angew Chem Int Ed Engl. 2014 Apr 22;53(17):4413-7. doi: 10.1002/anie.201310451. Epub 2014 Mar 20.

DOI:10.1002/anie.201310451

PMID:24652777

Abstract

Remanence and coercivity are the basic characteristics of permanent magnets. They are also tightly correlated with the existence of long relaxation times of magnetization in a number of molecular complexes, called accordingly single-molecule magnets (SMMs). Up to now, hysteresis loops with large coercive fields have only been observed in polynuclear metal complexes and metal-radical SMMs. On the contrary, mononuclear complexes, called single-ion magnets (SIM), have shown hysteresis loops of butterfly/phonon bottleneck type, with negligible coercivity, and therefore with much shorter relaxation times of magnetization. A mononuclear Er(III) complex is presented with hysteresis loops having large coercive fields, achieving 7000 Oe at T=1.8 K and field variation as slow as 1 h for the entire cycle. The coercivity persists up to about 5 K, while the hysteresis loops persist to 12 K. Our finding shows that SIMs can be as efficient as polynuclear SMMs, thus opening new perspectives for their applications.

摘要

剩磁和矫顽力是永磁体的基本特性。它们与许多分子配合物中磁化的长弛豫时间的存在密切相关，这些配合物被称为单分子磁体（SMMs）。到目前为止，只有在多核金属配合物和金属自由基 SMMs 中才观察到具有大矫顽场的磁滞回线。相反，单核配合物称为单离子磁体（SIM），表现出具有可忽略矫顽力的蝴蝶/声子瓶颈型磁滞回线，因此磁化弛豫时间要短得多。本文提出了一个具有大矫顽场的单核 Er(III)配合物，在 T=1.8 K 时达到 7000 Oe 的矫顽场，整个循环的磁场变化缓慢至 1 h。矫顽力一直持续到约 5 K，而磁滞回线一直持续到 12 K。我们的发现表明，SIMs 可以像多核 SMMs 一样高效，从而为它们的应用开辟了新的前景。

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通过精细调整局域对称性，在单离子磁体中获得创纪录的阻塞温度和磁剩磁。

Fine-tuning the local symmetry to attain record blocking temperature and magnetic remanence in a single-ion magnet.

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