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Vacancies Engineering in Molybdenum Boride MBene Nanosheets to Activate Room‐Temperature Ferromagnetism

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Feng,  Xinliang       
Department of Synthetic Materials and Functional Devices (SMFD), Max Planck Institute of Microstructure Physics, Max Planck Society;

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Citation

Zhang, L., Xing, S., He, T., Wu, W., Zhang, A., Guo, Z., et al. (2024). Vacancies Engineering in Molybdenum Boride MBene Nanosheets to Activate Room‐Temperature Ferromagnetism. Advanced Materials, 2411765. doi:10.1002/adma.202411765.


Cite as: https://hdl.handle.net/21.11116/0000-0010-2E90-8
Abstract
The rapid development of low energy dissipation spintronic devices has stimulated the search for air-stable 2D nanomaterials possessing room-temperature ferromagnetism. Here the experimental realization of 2D Mo4/3B2 nanosheets is reported with intrinsic room-temperature ferromagnetic characteristics by vacancy engineering. These nanosheets are synthesized by etching the bulk MAB phase (Mo2/3Y1/3)2AlB2 into Mo4/3B2 nanosheets in ZnCl2 molten salt. The Mo4/3B2 nanosheets show robust intrinsic ferromagnetic properties, with a saturation magnetic moment of 0.044 emu g−1 at 300 K, while vacancy-free MoB MBene exhibits paramagnetism. It is elucidated that the Mo-vacancy defect generates large density of states near the Fermi surface and spontaneously spin-split bands through first-principles calculations, which contributes to the non-zero magnetic moment in Mo4/3B2 nanosheets. This work lays the groundwork for activating the magnetic properties of MBene nanosheets by vacancy engineering, offering the possibilities for development of practical spintronic devices.