通过密度泛函理论研究层状材料中不同化学环境下硼、碳和氮 K 边的 ELNES。

ELNES for boron, carbon, and nitrogen K-edges with different chemical environments in layered materials studied by density functional theory.

机构信息

Department of Materials Science, Fudan University, Shanghai 200433, China.

出版信息

Ultramicroscopy. 2012 Jan;112(1):61-8. doi: 10.1016/j.ultramic.2011.10.011. Epub 2011 Oct 28.

DOI:10.1016/j.ultramic.2011.10.011

PMID:22094414

Abstract

Electron energy-loss near-edge fine structures (ELNES) were calculated for graphene, doped graphene, a hexagonal BN monolayer, and a hexagonal BC₂N layer using an ab initio pseudopotential plane wave method including the core-hole effect. Spectral features that can be used to distinguish different chemical environments are identified. The spectral features are closely related to the atomic species and arrangement. The connection between chemical environments and fine structures is discussed.

摘要

采用包含核心空位效应的第一性原理赝势平面波方法，计算了石墨烯、掺杂石墨烯、六方 BN 单层和六方 BC₂N 层的电子能量损失近边精细结构（ELNES）。确定了可用于区分不同化学环境的光谱特征。光谱特征与原子种类和排列密切相关。讨论了化学环境与精细结构之间的联系。

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通过密度泛函理论研究层状材料中不同化学环境下硼、碳和氮 K 边的 ELNES。

ELNES for boron, carbon, and nitrogen K-edges with different chemical environments in layered materials studied by density functional theory.

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通过密度泛函理论研究层状材料中不同化学环境下硼、碳和氮 K 边的 ELNES。

ELNES for boron, carbon, and nitrogen K-edges with different chemical environments in layered materials studied by density functional theory.

机构信息

出版信息