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Room temperature ferromagnetism in the nanolaminated MAX phase (Mn1−<i>x</i>Cr<i>x</i>)2GaC

Einar B. Thorsteinsson, Martin Dahlqvist, Anna Elsukova, Andrejs Petruhins, Per O. Å. Persson, Johanna Rosén, Á.S. Ingason, F. Magnus

2023APL Materials10 citationsDOIOpen Access PDF

Abstract

MAX phases are a class of intrinsically nanolaminated materials, which combine features of metals and ceramics, owing to the alternating metallic and covalent bonding between atomic layers. Magnetic MAX phases have been known for a decade, but ferromagnetism at room temperature in this highly anisotropic system has been elusive, limiting their value as magnets in practice. Here, we show that a MAX phase with a strong ferromagnetic response is obtained by substituting Mn with Cr on the M-site in the well-known Mn2GaC. The ferromagnetic response is observed in (Mn1−xCrx)2GaC with 0.06 &amp;lt; x &amp;lt; 0.29 up to temperatures well exceeding room temperature (489 K). The strongest magnetization is achieved with x = 0.12, reaching a saturation moment of 1.25 μB and a remanence of 0.67 μB per M-atom at 3 K and maintaining 0.90 and 0.44 μB per M-atom, respectively, at 300 K. This is the first experimental report of a significant ferromagnetic response in a MAX phase at room temperature. The results open the door to the use of MAX phases in a broad range of applications, from bulk magnets in power electronics to spintronic devices.

Topics & Concepts

FerromagnetismMaterials scienceSpintronicsRemanenceCondensed matter physicsMagnetizationMagnetic momentAtmospheric temperature rangePhase (matter)MagnetMagnetic anisotropyMagnetic fieldThermodynamicsElectrical engineeringPhysicsQuantum mechanicsEngineeringMXene and MAX Phase MaterialsFerroelectric and Negative Capacitance Devices2D Materials and Applications
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