Magneto-Ionic Switching of Superparamagnetism

Markus Gößler; Mihaela Albu; Gregor Klinser; Eva-Maria Steyskal; Heinz Krenn; Roland Würschum

doi:10.1002/smll.201904523

Magneto-Ionic Switching of Superparamagnetism

Markus Gößler, Mihaela Albu, Gregor Klinser, Eva-Maria Steyskal, Heinz Krenn, Roland Würschum

Publikation: Beitrag in einer Fachzeitschrift › Artikel › Begutachtung

Abstract

Electrochemical reactions represent a promising approach to control magnetization via electric fields. Favorable reaction kinetics have made nanoporous materials particularly interesting for magnetic tuning experiments. A fully reversible ON and OFF switching of magnetism in nanoporous Pd(Co) at room temperature is demonstrated, triggered by electrochemical hydrogen sorption. Comprehensive magnetic characterization in combination with high‐resolution scanning transmission electron microscopy reveals the presence of Co‐rich, nanometer‐sized clusters in the nanoporous Pd matrix with distinct superparamagnetic behavior. The strong magneto‐ionic effect arises from coupling of the magnetic clusters via a Ruderman–Kittel–Kasuya–Yoshida‐type interaction in the Pd matrix which is strengthened upon hydrogen sorption. This approach offers a new pathway for the voltage control of magnetism, for application in spintronic or microelectromagnetic devices.

Originalsprache	englisch
Aufsatznummer	1904523
Seitenumfang	8
Fachzeitschrift	Small
DOIs	https://doi.org/10.1002/smll.201904523
Publikationsstatus	Elektronische Veröffentlichung vor Drucklegung. - 1 Okt. 2019

Fields of Expertise

Advanced Materials Science

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10.1002/smll.201904523Lizenz: CC BY 4.0

1 Abgeschlossen
1 Laufend

Energierelevante Materialien & Nanomaterialien
Brossmann, U., Steyskal, E., Würschum, R. & Klinser, G.
1/01/00 → …
Projekt: Arbeitsgebiet
FWF - Nanoporös - In-situ Magnetometrie von nanoporösen Metallen während Dealloying und Beladung
Würschum, R., Steyskal, E. & Gößler, M.
17/07/17 → 16/10/21
Projekt: Forschungsprojekt

Dieses zitieren

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abstract = "Electrochemical reactions represent a promising approach to control magnetization via electric fields. Favorable reaction kinetics have made nanoporous materials particularly interesting for magnetic tuning experiments. A fully reversible ON and OFF switching of magnetism in nanoporous Pd(Co) at room temperature is demonstrated, triggered by electrochemical hydrogen sorption. Comprehensive magnetic characterization in combination with high‐resolution scanning transmission electron microscopy reveals the presence of Co‐rich, nanometer‐sized clusters in the nanoporous Pd matrix with distinct superparamagnetic behavior. The strong magneto‐ionic effect arises from coupling of the magnetic clusters via a Ruderman–Kittel–Kasuya–Yoshida‐type interaction in the Pd matrix which is strengthened upon hydrogen sorption. This approach offers a new pathway for the voltage control of magnetism, for application in spintronic or microelectromagnetic devices.",

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T1 - Magneto-Ionic Switching of Superparamagnetism

AU - Gößler, Markus

AU - Albu, Mihaela

AU - Klinser, Gregor

AU - Steyskal, Eva-Maria

AU - Krenn, Heinz

AU - Würschum, Roland

PY - 2019/10/1

Y1 - 2019/10/1

N2 - Electrochemical reactions represent a promising approach to control magnetization via electric fields. Favorable reaction kinetics have made nanoporous materials particularly interesting for magnetic tuning experiments. A fully reversible ON and OFF switching of magnetism in nanoporous Pd(Co) at room temperature is demonstrated, triggered by electrochemical hydrogen sorption. Comprehensive magnetic characterization in combination with high‐resolution scanning transmission electron microscopy reveals the presence of Co‐rich, nanometer‐sized clusters in the nanoporous Pd matrix with distinct superparamagnetic behavior. The strong magneto‐ionic effect arises from coupling of the magnetic clusters via a Ruderman–Kittel–Kasuya–Yoshida‐type interaction in the Pd matrix which is strengthened upon hydrogen sorption. This approach offers a new pathway for the voltage control of magnetism, for application in spintronic or microelectromagnetic devices.

AB - Electrochemical reactions represent a promising approach to control magnetization via electric fields. Favorable reaction kinetics have made nanoporous materials particularly interesting for magnetic tuning experiments. A fully reversible ON and OFF switching of magnetism in nanoporous Pd(Co) at room temperature is demonstrated, triggered by electrochemical hydrogen sorption. Comprehensive magnetic characterization in combination with high‐resolution scanning transmission electron microscopy reveals the presence of Co‐rich, nanometer‐sized clusters in the nanoporous Pd matrix with distinct superparamagnetic behavior. The strong magneto‐ionic effect arises from coupling of the magnetic clusters via a Ruderman–Kittel–Kasuya–Yoshida‐type interaction in the Pd matrix which is strengthened upon hydrogen sorption. This approach offers a new pathway for the voltage control of magnetism, for application in spintronic or microelectromagnetic devices.

U2 - 10.1002/smll.201904523

DO - 10.1002/smll.201904523

M3 - Article

SN - 1613-6810

JO - Small

JF - Small

M1 - 1904523

ER -

Magneto-Ionic Switching of Superparamagnetism

Abstract

Fields of Expertise

Zugriff auf Dokument

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Projekte

Energierelevante Materialien & Nanomaterialien

FWF - Nanoporös - In-situ Magnetometrie von nanoporösen Metallen während Dealloying und Beladung

Dieses zitieren