Sea-shell-like B31+ and B32: two new axially chiral members of the borospherene family

Since the discovery of the cage-like borospherenes D2d B40−/0 and the first axially chiral borospherenes C3/C2 B39−, a series of fullerene-like boron clusters in different charge states have been reported in theory. Based on extensive global minimum searches and first-principles theory calculations,...

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Bibliographic Details
Published in:RSC advances 2020-03, Vol.10 (17), p.10129-10133
Main Authors: Ling, Pei, Miao, Yan, Xiao-Yun, Zhao, Yue-Wen, Mu, Hai-Gang Lu, Yan-Bo, Wu, Si-Dian, Li
Format: Article
Language:English
Subjects:
Aromaticity
Boron
Cages
Chemistry
Computer simulation
Covalent bonds
Equivalence
First principles
Fullerenes
Molecular dynamics
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Summary:Since the discovery of the cage-like borospherenes D2d B40−/0 and the first axially chiral borospherenes C3/C2 B39−, a series of fullerene-like boron clusters in different charge states have been reported in theory. Based on extensive global minimum searches and first-principles theory calculations, we present herein two new axially chiral members C2 B31+ (I) and C2 B32 (VI) to the borospherene family. B31+ (I) features two equivalent heptagons on the top and one octagon at the bottom on the cage surface, while B32 (VI) possesses two equivalent heptagons on top and two equivalent heptagons at the bottom. Detailed bonding analyses show that both sea-shell-like B31+ (I) and B32 (VI) follow the universal σ + π double delocalization bonding pattern of the borospherene family, with ten delocalized π bonds over a σ skeleton, rendering spherical aromaticity to the systems. Extensive molecular dynamics simulations show that these novel borospherenes are kinetically stable below 1000 K. The IR, Raman, and UV-vis spectra of B31+ (I) and B32 (VI) are computationally simulated to facilitate their future experimental characterizations.
ISSN:2046-2069
DOI:10.1039/d0ra01087a