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Experimental realization of two-dimensional boron sheets

实现(概率) 化学 纳米技术 计算化学 材料科学 有机化学 数学 统计
作者
Baojie Feng,Jin Zhang,Qing Zhong,Wenbin Li,Shuai Li,Hui Li,Peng Cheng,Sheng Meng,Lan Chen,Kehui Wu
出处
期刊:Nature Chemistry [Nature Portfolio]
卷期号:8 (6): 563-568 被引量:1865
标识
DOI:10.1038/nchem.2491
摘要

A variety of two-dimensional materials have been reported in recent years, yet single-element systems such as graphene and black phosphorus have remained rare. Boron analogues have been predicted, as boron atoms possess a short covalent radius and the flexibility to adopt sp2 hybridization, features that favour the formation of two-dimensional allotropes, and one example of such a borophene material has been reported recently. Here, we present a parallel experimental work showing that two-dimensional boron sheets can be grown epitaxially on a Ag(111) substrate. Two types of boron sheet, a β12 sheet and a χ3 sheet, both exhibiting a triangular lattice but with different arrangements of periodic holes, are observed by scanning tunnelling microscopy. Density functional theory simulations agree well with experiments, and indicate that both sheets are planar without obvious vertical undulations. The boron sheets are quite inert to oxidization and interact only weakly with their substrate. We envisage that such boron sheets may find applications in electronic devices in the future. A variety of two-dimensional materials have been reported in the past few years, yet single-element systems—such as graphene and black phosphorus—have remained rare. 2D allotropes of boron have long been predicted and recently investigated. Two boron sheets have now been grown on a Ag(111) surface by molecule beam epitaxy that exhibit significant chemical stability against oxidation.
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