The Use of Magnetic Dilution To Elucidate the Slow Magnetic Relaxation Effects of a Dy-2 Single-Molecule Magnet

Fatemah Habib; Po-Heng Lin; Jerome Long; Ilia Korobkov; Wolfgang Wernsdorfer; Muralee Murugesu

doi:10.1021/ja2017009

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The Use of Magnetic Dilution To Elucidate the Slow Magnetic Relaxation Effects of a Dy-2 Single-Molecule Magnet

Journal article

Peer reviewed

The Use of Magnetic Dilution To Elucidate the Slow Magnetic Relaxation Effects of a Dy-2 Single-Molecule Magnet

Fatemah Habib, Po-Heng Lin, Jerome Long, Ilia Korobkov, Wolfgang Wernsdorfer and Muralee Murugesu

Journal of the American Chemical Society, Vol.133(23), pp.8830-8833

15/06/2011

DOI: https://doi.org/10.1021/ja2017009

PMID: 21563820

Abstract

Chemistry

Chemistry, Multidisciplinary

Physical Sciences

Science & Technology

The magnetic dilution method was employed in order to elucidate the origin of the slow relaxation of the magnetization in a Dy-2 single-molecule magnet (SMM). The doping effect was studied using SQUID and micro-SQUID measurements on a Dy-2 SMM diluted in a diamagnetic Y-2 matrix. The quantum tunneling of the magnetization that can occur was suppressed by applying optimum dc fields. The dominant single-ion relaxation was found to be entangled with the neighboring Dy-III ion relaxation within the molecule, greatly influencing the quantum tunneling of the magnetization in this complex.

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Title: The Use of Magnetic Dilution To Elucidate the Slow Magnetic Relaxation Effects of a Dy-2 Single-Molecule Magnet
Creators - without role: Fatemah Habib - University of Ottawa
Po-Heng Lin - University of Ottawa
Jerome Long - University of Ottawa
Ilia Korobkov - University of Ottawa
Wolfgang Wernsdorfer - Institut Néel
Muralee Murugesu - University of Ottawa
Publication Details: Journal of the American Chemical Society, Vol.133(23), pp.8830-8833
Publisher: Amer Chemical Soc
Number of pages: 4
Grant note: NSERC; Natural Sciences and Engineering Research Council of Canada (NSERC) FFCR University of Ottawa CFI; Canada Foundation for Innovation
Identifiers: 9945904108331
Language: English
Resource Type: Journal article