1. Growth of semiconducting single-wall carbon nanotubes with a narrow band-gap distribution
- Author
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Feng Zhang, Bing Wei Wang, Hong Tao Cong, Mao-Lin Chen, Hua Jiang, Peng-Xiang Hou, Esko I. Kauppinen, Jin-Cheng Li, Hui-Ming Cheng, Dong-Ming Sun, Chang Liu, Chinese Academy of Sciences, Department of Applied Physics, King Abdulaziz University, Aalto-yliopisto, and Aalto University
- Subjects
Materials science ,Science ,ta221 ,Selective chemistry of single-walled nanotubes ,General Physics and Astronomy ,chemistry.chemical_element ,Nanoparticle ,Nanotechnology ,02 engineering and technology ,Carbon nanotube ,010402 general chemistry ,01 natural sciences ,Article ,General Biochemistry, Genetics and Molecular Biology ,law.invention ,law ,Multidisciplinary ,ta114 ,Carbon nanofiber ,General Chemistry ,021001 nanoscience & nanotechnology ,Corrigenda ,0104 chemical sciences ,Optical properties of carbon nanotubes ,Carbon nanobud ,chemistry ,Carbon nanotube supported catalyst ,0210 nano-technology ,Cobalt - Abstract
The growth of high-quality semiconducting single-wall carbon nanotubes with a narrow band-gap distribution is crucial for the fabrication of high-performance electronic devices. However, the single-wall carbon nanotubes grown from traditional metal catalysts usually have diversified structures and properties. Here we design and prepare an acorn-like, partially carbon-coated cobalt nanoparticle catalyst with a uniform size and structure by the thermal reduction of a [Co(CN)6]3− precursor adsorbed on a self-assembled block copolymer nanodomain. The inner cobalt nanoparticle functions as active catalytic phase for carbon nanotube growth, whereas the outer carbon layer prevents the aggregation of cobalt nanoparticles and ensures a perpendicular growth mode. The grown single-wall carbon nanotubes have a very narrow diameter distribution centred at 1.7 nm and a high semiconducting content of >95%. These semiconducting single-wall carbon nanotubes have a very small band-gap difference of ∼0.08 eV and show excellent thin-film transistor performance., Growth of high-quality semiconducting single-wall carbon nanotubes is crucial for high-performance devices. Here, the authors report a partially carbon-coated cobalt nanoparticle catalyst which catalyzes growth of predominantly semiconducting single-wall carbon nanotubes with a narrow band-gap distribution.
- Published
- 2016