Recent Developments in Lanthanide Single‐Molecule Magnets

Single‐molecule magnets (SMMs) exhibiting slow relaxation of magnetization of purely molecular origin are highly attractive owing to their potential applications in spintronic devices, high‐density information storage, and quantum computing. In particular, lanthanide SMMs have been playing a major r...

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Published in:Chemistry, an Asian journal an Asian journal, 2017-11, Vol.12 (21), p.2772-2779
Main Authors: Lu, Jingjing, Guo, Mei, Tang, Jinkui
Format: Article
Language:English
Subjects:
Chemistry
coordination modes
Information storage
lanthanides
Magnetic anisotropy
magnetic properties
Magnets
Quantum computing
quantum tunneling
single-molecule magnets
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description Single‐molecule magnets (SMMs) exhibiting slow relaxation of magnetization of purely molecular origin are highly attractive owing to their potential applications in spintronic devices, high‐density information storage, and quantum computing. In particular, lanthanide SMMs have been playing a major role in the advancement of this field because of the large intrinsic magnetic anisotropy of lanthanide metal ions. Herein, some recent breakthroughs that are changing the perspective of the field are highlighted, with special emphasis on synthetic strategies towards the design of high‐performance SMMs. Small‐scale attraction: Recent progress in the development of lanthanide single‐molecule magnets (SMMs) is highlighted, with emphasis on synthetic strategies towards the design of high‐performance SMMs (see figure). SMMs exhibit slow relaxation of magnetization of purely molecular origin and, as such, are highly attractive owing to their potential applications in spintronic devices, high‐density information storage, and quantum computing.
doi_str_mv 10.1002/asia.201701032
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subjects Chemistry
coordination modes
Information storage
lanthanides
Magnetic anisotropy
magnetic properties
Magnets
Quantum computing
quantum tunneling
single-molecule magnets
title Recent Developments in Lanthanide Single‐Molecule Magnets
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