Finite phenine nanotubes with periodic vacancy defects

Finite phenine nanotubes with periodic vacancy defects

Discrete graphitic carbon compounds serve as tunable models for the properties of extended macromolecular structures such as nanotubes. Here, we report synthesis and characterization of a cylindrical C H molecule composed of 40 benzene (phenine) units mutually bonded at the 1, 3, and 5 positions. Th...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2019-01, Vol.363 (6423), p.151-155
Hauptverfasser: Sun, Zhe, Ikemoto, Koki, Fukunaga, Toshiya M, Koretsune, Takashi, Arita, Ryotaro, Sato, Sota, Isobe, Hiroyuki
Format: Artikel
Sprache:eng
Schlagworte:
Benzene
Carbon
Carbon compounds
Carbon nanotubes
Catalysis
Catenation
Chemical synthesis
Coupling (molecular)
Couplings
Cross coupling
Crystal defects
Crystallography
Cylinders
Defects
Fullerenes
Hydrocarbons
Lattice vacancies
Macromolecules
Molecular structure
Nanotechnology
Nanotubes
Organic chemistry
Vacancies
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Zusammenfassung:Discrete graphitic carbon compounds serve as tunable models for the properties of extended macromolecular structures such as nanotubes. Here, we report synthesis and characterization of a cylindrical C H molecule composed of 40 benzene (phenine) units mutually bonded at the 1, 3, and 5 positions. The concise nine-step synthesis featuring successive borylations and couplings proceeded with an average yield for each benzene-benzene bond formation of 91%. The molecular structure of the nanometer-sized cylinder with periodic vacancy defects was confirmed spectroscopically and crystallographically. The nanoporous nature of the compound further enabled inclusion of multiple fullerene guests. Computations suggest that fusing many such cylinders could produce carbon nanotubes with electronic properties modulated by the periodic vacancy defects.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.aau5441