Room temperature photosensitive ferromagnetic semiconductor using MoS2

Jingjing Lu, Yan Xu, Jingsong Cui, Peng Zhang, Chenxi Zhou, Hanuman Singh, Shuai Zhang, Long You, Jeongmin Hong
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Abstract

Two-dimensional semiconductors, including transition metal dichalcogenides (TMDs), are of interest in electronics and photonics but remain nonmagnetic in their intrinsic form. Atomic modulation using physical and chemical ways is an effective means to control the physical properties such as magnetic and electrical properties of two-dimensional materials which can be controlled by irradiation. Here we treat mechanically exfoliated MoS2 with a helium ion beam, which exhibits semiconducting and ferromagnetic ordering at room temperature, while Monte Carlo simulations and theoretical calculations confirmed that the control of nanoholes result in the presence of magnetism. In addition, the irradiation results of multilayer MoS2 show that the magnetic moment increases with the increase of 10 layers. The conductivity remains virtually unchanged before and after being treated by a helium ion beam. The treated MoS2 spintronic device displays the switch of ‘on/off” under the light, magnetic field, and/or electric field, which means 2D photosensitive ferromagnetic semiconductor functions are successfully demonstrated at room temperature.

Abstract Image

使用 MoS2 的室温光敏铁磁半导体
二维半导体,包括过渡金属二掺杂物(TMDs),在电子学和光子学领域备受关注,但其固有形式仍然是非磁性的。利用物理和化学方法进行原子调制是控制二维材料磁性和电性等物理性质的有效手段,这些物理性质可通过辐照控制。在这里,我们用氦离子束处理机械剥离的 MoS2,它在室温下表现出半导体和铁磁有序性,蒙特卡罗模拟和理论计算证实,纳米孔的控制导致了磁性的存在。此外,多层 MoS2 的辐照结果表明,磁矩随着 10 层的增加而增大。氦离子束处理前后,导电性几乎保持不变。经过处理的 MoS2 自旋电子器件在光、磁场和/或电场的作用下显示出 "开/关 "开关,这意味着二维光敏铁磁半导体功能在室温下得到了成功展示。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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