| Literature DB >> 26282030 |
Erjun Kan1, Ming Li1, Shuanglin Hu2, Chuanyun Xiao1, Hongjun Xiang3, Kaiming Deng1.
Abstract
Two-dimensional materials have been the hot subject of studies due to their great potential in applications. However, their applications in spintronics have been blocked by the difficulty in producing ordered spin structures in 2D structures. Here we demonstrated that the ultrathin films of recently experimentally realized wurtzite MnO can automatically transform into a stable graphitic structure with ordered spin arrangement via density functional calculation, and the stability of graphitic structure can be enhanced by external strain. Moreover, the antiferromagnetic ordering of graphitic MnO single layer can be switched into half-metallic ferromagnetism by small hole-doping, and the estimated Curie temperature is higher than 300 K. Thus, our results highlight a promising way toward 2D magnetic materials.Entities:
Keywords: density functional theory; spintronics; transition-metal oxide; two-dimensional magnetic materials
Year: 2013 PMID: 26282030 DOI: 10.1021/jz4000559
Source DB: PubMed Journal: J Phys Chem Lett ISSN: 1948-7185 Impact factor: 6.475