Electronic and Magnetic Properties of FeCl3 Intercalated Bilayer Graphene

C Pub Date : 2023-10-03 DOI:10.3390/c9040095
Jiajun Dai, Shilpa Yadav, Beate Paulus
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Abstract

Graphene has gained significant attention since its discovery in 2004, and the modification of few-layer graphene provides a platform to tailor its physical and electronic properties. In this study, we employed unrestricted density functional theory (DFT) with the PBE+U functional to investigate the electronic and magnetic properties of FeCl3-intercalated bilayer graphene (BLG). Both in BLG and stage-2 intercalated graphite, a distinct localization of electrons on a specific Fe atom is evident, gaining approximately 0.245 electrons evaluated with Bader analysis, while the holes are delocalized within the graphene layers. This results in p-doped graphene, characterized by a shift of the Dirac cone by 0.74 eV for BLG and 0.70 eV for stage-2 intercalated graphite. Ferromagnetic ordering is observed within the plane of FeCl3-intercalated BLG, whereas the FeCl3 layers exhibit antiferromagnetic coupling in stage-2 intercalated graphite. The ferromagnetic nature and electronic structure of the FeCl3-intercalated BLG is retained under pressure.
FeCl3嵌入双层石墨烯的电子和磁性能
自2004年发现石墨烯以来,它受到了极大的关注,对几层石墨烯的改性为定制其物理和电子特性提供了一个平台。在这项研究中,我们采用不受限制密度泛函理论(DFT)和PBE+U泛函研究了fecl3插层双层石墨烯(BLG)的电子和磁性能。在BLG和stage-2嵌入石墨中,电子在特定铁原子上的明显局域化是显而易见的,通过Bader分析获得了大约0.245个电子,而空穴在石墨烯层内是非局域化的。这导致了p掺杂石墨烯,其特征是BLG的狄拉克锥位移为0.74 eV,而第2阶段插入石墨的狄拉克锥位移为0.70 eV。在fel3 - BLG的平面内观察到铁磁有序,而在fel3 - BLG的第2阶段插入石墨中,fel3层表现出反铁磁耦合。在压力作用下,fecl3插层BLG的铁磁性质和电子结构得以保留。
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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