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  • Title: Ferromagnetic barrier induced large enhancement of tunneling magnetoresistance in van der Waals perpendicular magnetic tunnel junctions.
    Author: Zhang X, Yang B, Guo X, Han X, Yan Y.
    Journal: Nanoscale; 2021 Dec 13; 13(47):19993-20001. PubMed ID: 34826324.
    Abstract:
    van der Waals (vdW) intrinsic magnets are promising for miniaturization of devices beyond Moore's law for future energy efficient nanoelectronic devices and have been successfully used for constructing high performance vdW magnetic tunnel junctions (vdW MTJs). Here, using first principles calculations, we investigate the magnetic anisotropy, spin-dependent transport and tunneling magnetoresistance (TMR) effect of vdW MTJs formed by sandwiching a ferromagnetic (FM) monolayer CrI3 or non-magnetic monolayer ScI3 barrier between two vdW FM Fe3GeTe2 electrodes, respectively. It is found that two vdW MTJs possess strong perpendicular magnetic anisotropy. Moreover, due to no barrier for majority-spin transmission within half-metallic CrI3 barrier and the difference between majority- and minority-spin conduction channels of the Fe3GeTe2 electrode, a high TMR ratio of about 3100% is achieved in vdW MTJs based on the Fe3GeTe2/CrI3/Fe3GeTe2 vdW heterostructure. In contrast, a smaller TMR ratio of about 1200% is produced in vdW MTJs based on the Fe3GeTe2/ScI3/Fe3GeTe2 vdW heterostructure due to the strong suppression of ScI3 for majority-spin transmission in the case of the parallel state of magnetization of two FM electrodes. Our results provide a promising route for the design of vdW perpendicular MTJs with a high TMR ratio.
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