Polymorphism of Two-Dimensional Boron
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Abstract
The structural stability and diversity of elemental boron layers are evaluated by treating them as pseudoalloy B(1-x)[hexagon](x), where [hexagon] is a vacancy in the close-packed triangular B lattice. This approach allows for an elegant use of the cluster expansion method in combination with first-principles density-functional theory calculations, leading to a thorough exploration of the configurational space. A finite range of compositions x is found where the ground-state energy is essentially independent of x, uncovering a variety of stable B-layer phases (all metallic) and suggesting polymorphism, in stark contrast to graphene or hexagonal BN.
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4Topics & keywords
Topics
Keywords
- Boron
- Density functional theory
- Vacancy defect
- Polymorphism (computer science)
- Graphene
- Lattice (music)
- Crystallography
- Hexagonal crystal system
UN Sustainable Development Goals
- Affordable and clean energy
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