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Magnetic Hysteresis at 10 K in Single Molecule Magnet Self-Assembled on Gold

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Title
Magnetic Hysteresis at 10 K in Single Molecule Magnet Self-Assembled on Gold
Author(s)
Chen, Chia-Hsiang; Spree, Lukas; Koutsouflakis, Emmanouil; Denis S. Krylov; Liu, Fupin; Brandenburg, Ariane; Velkos, Georgios; Schimmel, Sebastian; Avdoshenko, Stanislav M.; Fedorov, Alexander; Weschke, Eugen; Choueikani, Fadi; Ohresser, Philippe; Dreiser, Jan; Büchner, Bernd; Popov, Alexey A.
Publication Date
2021-03
Journal
ADVANCED SCIENCE, v.8, no.5, pp.1 - 7
Publisher
WILEY
Abstract
Tremendous progress in the development of single molecule magnets (SMMs) raises the question of their device integration. On this route, understanding the properties of low-dimensional assemblies of SMMs, in particular in contact with electrodes, is a necessary but difficult step. Here, it is shown that fullerene SMM self-assembled on metal substrate from solution retains magnetic hysteresis up to 10 K. Fullerene-SMM DySc2N@C-80 and Dy2ScN@C-80 are derivatized to introduce a thioacetate group, which is used to graft SMMs on gold. Magnetic properties of grafted SMMs are studied by X-ray magnetic circular dichroism and compared to the films of nonderivatized fullerenes prepared by sublimation. In self-assembled films, the magnetic moments of the Dy ions are preferentially aligned parallel to the surface, which is different from the disordered orientation of endohedral clusters in nonfunctionalized fullerenes. Whereas chemical derivatization reduces the blocking temperature of magnetization and narrows the hysteresis of Dy2ScN@C-80, for DySc2N@C-80 equally broad hysteresis is observed as in the fullerene multilayer. Magnetic bistability in the DySc2N@C-80 grafted on gold is sustained up to 10 K. This study demonstrates that self-assembly of fullerene-SMM derivatives offers a facile solution-based procedure for the preparation of functional magnetic sub-monolayers with excellent SMM performance.
URI
https://pr.ibs.re.kr/handle/8788114/9235
DOI
10.1002/advs.202000777
Appears in Collections:
Center for Quantum Nanoscience(양자나노과학 연구단) > 1. Journal Papers (저널논문)
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