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Literature DB >> 25054944

Observation of an all-boron fullerene.

Hua-Jin Zhai¹, Ya-Fan Zhao², Wei-Li Li³, Qiang Chen¹, Hui Bai¹, Han-Shi Hu², Zachary A Piazza³, Wen-Juan Tian¹, Hai-Gang Lu¹, Yan-Bo Wu¹, Yue-Wen Mu¹, Guang-Feng Wei⁴, Zhi-Pan Liu⁴, Jun Li², Si-Dian Li¹, Lai-Sheng Wang³.

Abstract

After the discovery of fullerene-C60, it took almost two decades for the possibility of boron-based fullerene structures to be considered. So far, there has been no experimental evidence for these nanostructures, in spite of the progress made in theoretical investigations of their structure and bonding. Here we report the observation, by photoelectron spectroscopy, of an all-boron fullerene-like cage cluster at B40(-) with an extremely low electron-binding energy. Theoretical calculations show that this arises from a cage structure with a large energy gap, but that a quasi-planar isomer of B40(-) with two adjacent hexagonal holes is slightly more stable than the fullerene structure. In contrast, for neutral B40 the fullerene-like cage is calculated to be the most stable structure. The surface of the all-boron fullerene, bonded uniformly via delocalized σ and π bonds, is not perfectly smooth and exhibits unusual heptagonal faces, in contrast to C60 fullerene.

Entities: Chemical

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Year: 2014 PMID： 25054944 DOI： 10.1038/nchem.1999

Source DB: PubMed Journal: Nat Chem ISSN： 1755-4330 Impact factor: 24.427

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