Pilo Jorge, Miranda Álvaro, Trejo Alejandro, Carvajal Eliel, Cruz-Irisson Miguel
Instituto Politécnico Nacional, ESIME-Culhuacán, Av. Santa Ana 1000, C.P. 04430, Ciudad de México, Mexico.
J Mol Model. 2017 Oct 24;23(11):322. doi: 10.1007/s00894-017-3483-9.
The half-metallic behavior of the perovskite SrFeMoO (SFMO) suggests that this material could be used in spintronic applications. Indeed, SFMO could be an attractive material for multiple applications due to the possibility that its electronic properties could be changed by modifying its spatial confinement or the relative contents of its constituent transition metals. However, there are no reports of theoretical studies on the properties of confined SFMOs with different transition metal contents. In this work, we studied the electronic properties of SFMO slabs using spin-polarized first-principles density functional theory along with the Hubbard-corrected local density approximation and a supercell scheme. We modeled three insulated SFMO slabs with Fe:Mo atomic ratios of 1:1, 1:0, and 0:1; all with free surfaces parallel to the (001) crystal plane. The results show that the half-metallicity of the SFMO is lost upon confinement and the material becomes a conductor, regardless of the ratio of Fe to Mo. It was also observed that the magnetic moment of the slab is strongly influenced by the oxygen atoms. These results could prove useful in attempts to apply SFMOs in fields other than spintronics. Graphical abstract Losing the metallic behaviour: density of states changes, around the Fermi level, due to the Fe/Mo ratio for bidimensional perovskite systems.
钙钛矿SrFeMoO(SFMO)的半金属行为表明该材料可用于自旋电子学应用。事实上,由于通过改变其空间限制或其组成过渡金属的相对含量可能改变其电子性质,SFMO对于多种应用可能是一种有吸引力的材料。然而,尚无关于具有不同过渡金属含量的受限SFMO性质的理论研究报告。在这项工作中,我们使用自旋极化第一性原理密度泛函理论以及哈伯德修正的局域密度近似和超胞方案研究了SFMO平板的电子性质。我们对三种绝缘的SFMO平板进行了建模,其Fe:Mo原子比分别为1:1、1:0和0:1;所有平板的自由表面均平行于(001)晶面。结果表明,受限后SFMO的半金属性丧失,且无论Fe与Mo的比例如何,该材料都变成导体。还观察到平板的磁矩受氧原子的强烈影响。这些结果可能有助于尝试将SFMO应用于自旋电子学以外的领域。图形摘要 失去金属行为:由于二维钙钛矿体系的Fe/Mo比,费米能级附近的态密度发生变化。
