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Literature DB >> 24116795

Conducting boron sheets formed by the reconstruction of the α-boron (111) surface.

Maximilian Amsler¹, Silvana Botti, Miguel A L Marques, Stefan Goedecker.

Abstract

Systematic ab initio structure prediction was applied for the first time to predict low energy surface reconstructions by employing the minima hopping method on the α-boron (111) surface. Novel reconstruction geometries were identified and carefully characterized in terms of structural and electronic properties. Our calculations predict the formation of a planar, monolayer sheet at the surface, which is responsible for conductive surface states. Furthermore, the isolated boron sheet is shown to be the ground state 2D structure in vacuum at a hole density of η=1/5 and is therefore a potential candidate as a precursor for boron nanostructures.

Entities: Chemical Gene

Year: 2013 PMID： 24116795 DOI： 10.1103/PhysRevLett.111.136101

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

6 in total

Conducting boron sheets formed by the reconstruction of the α-boron (111) surface.

1. Experimental realization of two-dimensional boron sheets.

2. Machine Learning Strategy for Accelerated Design of Polymer Dielectrics.

3. Ultrathin Single-Crystalline Boron Nanosheets for Enhanced Electro-Optical Performances.

4. High-throughput search of ternary chalcogenides for p-type transparent electrodes.

5. Direct insight into the structure-property relation of interfaces from constrained crystal structure prediction.

Review 6. Recent progress in boron nanomaterials.