Lattice distortions and magnetic interactions in single-layer VOCl

Amirabbasi, Mohammad; Ekholm, Marcus

doi:10.1103/physrevmaterials.7.074003

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Spin-lattice Dynamics1

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2024

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Cited by 2 publications

(2 citation statements)

References 63 publications

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“…4(d). It value is indeed higher than those of most theoretically and experimentally reported 2D magnetic materials, such as the CrOCl monolayer (160 K), 10 VSCl monolayer (125 K), 64 VNBr monolayer (161 K), 65 VOCl monolayer (70 K), 66 CrI 3 monolayer (45 K), 2 Cr 2 Ge 2 Te 6 bilayer (28 K), 3 CrSBr monolayer (142 K), 8 and Fe 3 GeTe 2 (130 K) 67 monolayer.…”

Section: Resultsmentioning

confidence: 58%

Enhanced ferromagnetism, perpendicular magnetic anisotropy and high Curie temperature in the van der Waals semiconductor CrSeBr through strain and doping

Han,

Xue,

2024

Phys. Chem. Chem. Phys.

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Section: Resultsmentioning

confidence: 58%

Enhanced ferromagnetism, perpendicular magnetic anisotropy and high Curie temperature in the van der Waals semiconductor CrSeBr through strain and doping

Han,

Xue,

2024

Phys. Chem. Chem. Phys.

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“…Recently, another class of materials has been suggested as candidates for strong spin-lattice coupling, namely, the quasi-two-dimensional VOCl [178][179][180] and similar compounds with Sc, Ti, Cr and Fe instead of V, and Br instead of Cl [181][182][183][184][185]. Theoretical calculations in [186] showed that interesting physics can be expected also in the single-layered version of these systems.…”

Section: Spin-lattice Dynamicsmentioning

confidence: 99%

From electronic structure to magnetism and skyrmions

Borisov

2024

Electron. Struct.

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Solid state theory, density functional theory and its generalizations for correlated systems together with numerical simulations on supercomputers allow nowadays to model magnetic systems realistically and in detail and can be even used to predict new materials, paving the way for more rapid material development for applications in energy storage and conversion, information technologies, sensors, actuators etc. Modelling magnets on diﬀerent length scales (between a few Angström and several micrometers) requires, however, approaches with very diﬀerent mathematical formulations. Parameters deﬁning the material in each formulation can be determined either by ﬁtting experimental data or from theoretical calculations and there exists a well-established approach for obtaining model parameters for each length scale using the information from the smaller length scale. In this review, this approach will be explained step-by-step in textbook style with examples of successful multiscale modelling of diﬀerent classes of magnetic materials from the research literature as well as based on results newly obtained for this review.

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Lattice distortions and magnetic interactions in single-layer VOCl

Cited by 2 publications

References 63 publications

Enhanced ferromagnetism, perpendicular magnetic anisotropy and high Curie temperature in the van der Waals semiconductor CrSeBr through strain and doping

Enhanced ferromagnetism, perpendicular magnetic anisotropy and high Curie temperature in the van der Waals semiconductor CrSeBr through strain and doping

From electronic structure to magnetism and skyrmions

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