Interlayer ferromagnetic coupling in nonmagnetic elements doped CrI 3 thin films
The exploration of magnetism in two-dimensional layered materials has attracted extensive research interest. For the monoclinic phase CrI
3 with interlayer antiferromagnetism, finding a static and robust way of realizing the intrinsic interlayer ferromagnetic coupling is desirable. In this work, we study the electronic structure and magnetic properties of the nonmagnetic element (e.g., O, S, Se, N, P, As, and C) doped bi- and triple-layer CrI
3 systems via first-principles calculations. Our results demonstrate that O, P, S, As, and Se doped CrI
3 bilayer can realize interlayer ferromagnetism. Further analysis shows that the interlayer ferromagnetic coupling in the doped few-layer CrI
3 is closely related to the formation of localized spin-polarized state around the doped elements. Further study presents that, for As-doped tri-layer CrI
3, it can realize interlayer ferromagnetic coupling. This work proves that nonmagnetic element doping can realize the interlayer ferromagnetically-coupled few-layer CrI
3 while maintaining its semiconducting characteristics without introducing additional carriers.
ferromagnetism、magnetic doping
19
2024-09-26(万方平台首次上网日期,不代表论文的发表时间)
共1页
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