期刊论文

Magneto-electronic properties of InSe nanoribbons terminated with non-metallic atoms and its strain modulation

Zhang Zhen-Hua

中文

物理学报

1000-3290

2019

68

19

287-296

10.7498/aps.68.20190547

National Natural Science Foundation of ChinaNational Natural Science Foundation of China (NSFC) [61771076, 11674039]

本校为第一且通讯机构

利用基于密度泛函理论的第一性原理计算方法,研究了Se边用H饱和、In边用各种非金属元素X(X=H,B,N,P,F和Cl)端接的锯齿型InSe纳米带(H-ZN(7)-X)的几何结构、磁电子特性及应变效应.计算的形成能和Forcite退火模拟表明H-ZN(7)-X具有稳定的几何结构.F和Cl端接时,纳米带具有和H端接时类似的磁金属性质.N端接时,纳米带磁性最强.但B和P端接使得纳米带边缘的磁性完全消失.特别是,我们发现外加的机械应变可以增强H-ZN(7)-N磁稳定性,并且有效地调节费米能级处的自旋极化率(SP),能在0—92％ 之间变化,这意味着可设计机械开关来控制低偏压下的自旋输运.应变调制机制与应变诱导的键长变化导致不成对的电子的重...

Employing the first-principles calculation based on the density functional theory, the geometries, magneto-electronicproperties, and strain effects of the zigzag-edged InSe nanoribbons with the Se-edge saturated by H atoms and In-edge terminated by various non-metallic elements <i>X</i> (<i>X</i> = H, B, N, P, F and Cl) are studied. The calculated formation energy and Forcite annealing simulations show that the H-ZN(7)-X has a stable geometry. For F- and Cl- terminated ribbons, they have a magnetic metallic property similar to that in the case of H termination, and for ...