Magneto-ionic Control of Magnetism Using a Solid-state Proton Pump

Overview

Journal Nat Mater

Date 2018 Nov 14

PMID 30420669

Citations 31

Authors

Aik Jun Tan

Mantao Huang

Can Onur Avci

Felix Buttner

Maxwell Mann

Wen Hu

Claudio Mazzoli

Stuart Wilkins

Harry L Tuller

Geoffrey S D Beach

Affiliations

Soon will be listed here.

Abstract

Voltage-gated ion transport as a means of manipulating magnetism electrically could enable ultralow-power memory, logic and sensor technologies. Earlier work made use of electric-field-driven O displacement to modulate magnetism in thin films by controlling interfacial or bulk oxidation states. However, elevated temperatures are required and chemical and structural changes lead to irreversibility and device degradation. Here we show reversible and non-destructive toggling of magnetic anisotropy at room temperature using a small gate voltage through H pumping in all-solid-state heterostructures. We achieve 90° magnetization switching by H insertion at a Co/GdO interface, with no degradation in magnetic properties after >2,000 cycles. We then demonstrate reversible anisotropy gating by hydrogen loading in Pd/Co/Pd heterostructures, making metal-metal interfaces susceptible to voltage control. The hydrogen storage metals Pd and Pt are high spin-orbit coupling materials commonly used to generate perpendicular magnetic anisotropy, Dzyaloshinskii-Moriya interaction, and spin-orbit torques in ferromagnet/heavy-metal heterostructures. Thus, our work provides a platform for voltage-controlled spin-orbitronics.

Citing Articles

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Molecular spin-probe sensing of H-mediated changes in Co nanomagnets.

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Reduction-Induced Magnetic Behavior in LaFeO Thin Films.

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Barough V, Jamilpanah L, Zare M, Ghanaatshoar M, Mohseni S Sci Rep. 2024; 14(1):3332.

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