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Magneto‐Ionic Control of Coercivity and Domain‐Wall Velocity in Co/Pd Multilayers by Electrochemical Hydrogen Loading

M. Bischoff, Rico Ehrler, Felix Engelhardt, Olav Hellwig, Karin Leistner, Markus Gößler

2024Advanced Functional Materials15 citationsDOIOpen Access PDF

Abstract

Abstract Magneto‐ionics, as the electrochemical reconfiguration of magnetic materials at low gating voltages, is a highly energy‐efficient alternative to control magnetism. For the fastest magneto‐ionic concept based on hydrogen, fundamental mechanisms are currently under debate, mainly because quantitative compositional information inside the magnetic materials upon gating is lacking. Using the electrochemical hydrogen loading of Co/Pd multilayers with perpendicular anisotropy, this study demonstrates that the hydrogen concentration inside the magnetic material determines its magnetic properties. Hydrogen concentrations up to a maximum of (0.24 ± 0.01) hydrogen atoms per metal atom can be set deterministically by voltage and are quantified via flow‐cell coulometry. With increasing hydrogen concentration, a continuous increase in coercivity of up to 15% and a decrease in magnetic domain‐wall velocity by an order of magnitude are observed using in situ MOKE microscopy. This enables the voltage‐controlled stop‐and‐go of domain walls. These magneto‐ionic effects can be explained by an increasing perpendicular anisotropy with increasing hydrogen content in Co/Pd multilayers, which is supported by theory. Importantly, the approach should be transferable to other ionic systems, such as lithium‐ or oxygen‐based ones, where it can uncover the yet hidden effects of ionic concentration on the magnetic properties and guide the design of functional magneto‐ionic devices.

Topics & Concepts

Materials scienceCoercivityHydrogenIonic bondingMagnetic anisotropyMagnetismChemical physicsElectrochemistryMagnetic domainCondensed matter physicsElectrodeMagnetic fieldMagnetizationChemistryPhysical chemistryIonPhysicsQuantum mechanicsOrganic chemistryMagnetic properties of thin filmsMagnetic and transport properties of perovskites and related materialsMagnetic Properties and Applications
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