Synthesis of borophenes: Anisotropic, two-dimensional boron polymorphs

Synthesis of borophenes: Anisotropic, two-dimensional boron polymorphs

At the atomic-cluster scale, pure boron is markedly similar to carbon, forming simple planar molecules and cage-like fullerenes. Theoretical studies predict that two-dimensional (2D) boron sheets will adopt an atomic configuration similar to that of boron atomic clusters. We synthesized atomically t...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2015-12, Vol.350 (6267), p.1513-1516
Hauptverfasser: Mannix, Andrew J., Zhou, Xiang-Feng, Kiraly, Brian, Wood, Joshua D., Alducin, Diego, Myers, Benjamin D., Liu, Xiaolong, Fisher, Brandon L., Santiago, Ulises, Guest, Jeffrey R., Yacaman, Miguel Jose, Ponce, Arturo, Oganov, Artem R., Hersam, Mark C., Guisinger, Nathan P.
Format: Artikel
Sprache:eng
Schlagworte:
Allotropes
Anisotropy
Atoms & subatomic particles
Boron
Boron - chemistry
Carbon
Chemical synthesis
Clusters
Fullerenes - chemistry
Graphene
MATERIALS SCIENCE
Polymorphism
Silver
Silver - chemistry
Two dimensional
Vacuum
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Zusammenfassung:At the atomic-cluster scale, pure boron is markedly similar to carbon, forming simple planar molecules and cage-like fullerenes. Theoretical studies predict that two-dimensional (2D) boron sheets will adopt an atomic configuration similar to that of boron atomic clusters. We synthesized atomically thin, crystalline 2D boron sheets (i.e., borophene) on silver surfaces under ultrahigh-vacuum conditions. Atomic-scale characterization, supported by theoretical calculations, revealed structures reminiscent of fused boron clusters with multiple scales of anisotropic, out-of-plane buckling. Unlike bulk boron allotropes, borophene shows metallic characteristics that are consistent with predictions of a highly anisotropic, 2D metal.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.aad1080