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Enhancing ferromagnetic coupling in CrXY (X = O, S, Se; Y = Cl, Br, I) monolayers by turning the covalent character of Cr-X bonds

Engineering and Technology

Enhancing ferromagnetic coupling in CrXY (X = O, S, Se; Y = Cl, Br, I) monolayers by turning the covalent character of Cr-X bonds

H. Zhu, B. Shao, et al.

This exciting research by Hao-Ran Zhu, Bin Shao, and Xu Zuo explores the remarkable electronic and magnetic properties of 1T phase chromium sulfide halide CrXY monolayers. Using first-principles calculations, they reveal that most CrXY monolayers are stable ferromagnetic semiconductors, with a maximum Curie temperature of 334 K in CrSeI, highlighting their potential for 2D spintronic devices.

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~3 min • Beginner • English
Abstract
On the basis of first-principles calculations, we investigate the electronic and magnetic properties of 1T phase chromium sulfide halide CrXY (X = O, S, Se; Y = Cl, Br, I) monolayers in CrCl2 structure with the P3m1 space group. Except for the CrOI monolayer, all CrXY monolayers are stable and ferromagnetic semiconductors. Our results show that the ferromagnetic coupling is dominated by the kinetic exchange between the empty e-orbital of Cr atoms and the p-orbital of anions under the three-fold rotational symmetry. In this context, the coupling strength allows for being greatly enhanced by turning the nature of Cr-X bonds, i.e., increasing the covalent contribution of the bonds by minimizing the energy difference of the coupled orbitals. As we illustrate for the example of CrOY, the Curie temperature (TC) is nearly tripled by substituting O by S/Se ion, eventually reaching the highest TC in CrSeI monolayer (334 K). The high stabilities and Curie temperature manifest these monolayer ferromagnetic materials feasible for synthesis and applicable to 2D spintronic devices.
Publisher
npj Computational Materials
Published On
Apr 08, 2023
Authors
Hao-Ran Zhu, Bin Shao, Xu Zuo
DOI
https://doi.org/10.1038/s41524-023-01013-8
Tags
ferromagnetic semiconductors
first-principles calculations
Curie temperature
spintronic devices
chromium sulfide halide
kinetic exchange
2D materials

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