Superior Magnetic Performance in FePt L10 Nanomaterials

Kwanghyo Son; Gihun Ryu; Hyeon Ho Jeong; Lukas Fink; Michael Merz; Peter Nagel; Stefan Schuppler; Gunther Richter; Eberhard Goering; Gisela Schütz

doi:10.1002/smll.201902353

Superior Magnetic Performance in FePt L1₀ Nanomaterials

Kwanghyo Son, Gihun Ryu, Hyeon Ho Jeong, Lukas Fink, Michael Merz, Peter Nagel, Stefan Schuppler, Gunther Richter, Eberhard Goering, Gisela Schütz

Research output: Contribution to journal › Article › peer-review

28 Scopus citations

Abstract

The discovery of the high maximum energy product of 59 MGOe for NdFeB magnets is a breakthrough in the development of permanent magnets with a tremendous impact in many fields of technology. This value is still the world record, for 40 years. This work reports on a reliable and robust route to realize nearly perfectly ordered L1₀-phase FePt nanoparticles, leading to an unprecedented energy product of 80 MGOe at room temperature. Furthermore, with a 3 nm Au coverage, the magnetic polarization of these nanomagnets can be enhanced by 25% exceeding 1.8 T. This exceptional magnetization and anisotropy is confirmed by using multiple imaging and spectroscopic methods, which reveal highly consistent results. Due to the unprecedented huge energy product, this material can be envisaged as a new advanced basic magnetic component in modern micro and nanosized devices.

Original language	English
Article number	1902353
Journal	Small
Volume	15
Issue number	34
DOIs	https://doi.org/10.1002/smll.201902353
State	Published - Aug 2019
Externally published	Yes

Keywords

FePt nanoparticles
high energy products
huge coercivity
permanent magnets

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10.1002/smll.201902353

Cite this

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abstract = "The discovery of the high maximum energy product of 59 MGOe for NdFeB magnets is a breakthrough in the development of permanent magnets with a tremendous impact in many fields of technology. This value is still the world record, for 40 years. This work reports on a reliable and robust route to realize nearly perfectly ordered L10-phase FePt nanoparticles, leading to an unprecedented energy product of 80 MGOe at room temperature. Furthermore, with a 3 nm Au coverage, the magnetic polarization of these nanomagnets can be enhanced by 25% exceeding 1.8 T. This exceptional magnetization and anisotropy is confirmed by using multiple imaging and spectroscopic methods, which reveal highly consistent results. Due to the unprecedented huge energy product, this material can be envisaged as a new advanced basic magnetic component in modern micro and nanosized devices.",

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AU - Ryu, Gihun

AU - Jeong, Hyeon Ho

AU - Fink, Lukas

AU - Merz, Michael

AU - Nagel, Peter

AU - Schuppler, Stefan

AU - Richter, Gunther

AU - Goering, Eberhard

AU - Schütz, Gisela

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Superior Magnetic Performance in FePt L1₀ Nanomaterials

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Keywords

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