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- Title
Electronic property and charge carrier mobility of one-dimensional nanowires consisting of C<sub>20</sub> cages.
- Authors
Bai, Hongcun; Ji, Wenxin; Xue, Ping; Qiao, Weiye; Ma, Yujia; Ji, Yongqiang
- Abstract
This work presented theoretical studies on the one-dimensional (1D) nanowires constructed from fullerene C20 cages based on first-principle calculations. The relative energies, electronic, charge transport, and mechanical properties of the 1D nanowires were investigated systemically and in detail. It is found that formations of the C20 nanowires built from isolated cages were all energetically favorable. They also exhibit high kinetic stability according to molecular dynamics simulations. Although they were all constructed with C20 cages as building blocks, NW-2-NW-6, and NW-9 are semiconductors, whereas NW-1, NW-7, and NW-8 exhibit metallic property. Thus the metallic/semiconducting properties of the 1D C20 nanowires can be mainly determined by the connecting patterns. High charge mobility was revealed for the 1D C20 nanowires based on the deformation potential theory and effective mass approach. Further understanding of the charge mobility is achieved with the aid of crystal orbital analyses. Moreover, the mechanical property of the 1D C20 nanowires was also studied based on the results of Young's modulus.
- Subjects
ELECTRIC properties of nanowires; CHARGE carrier mobility; FULLERENES; MOLECULAR dynamics; SEMICONDUCTOR materials; DEFORMATION potential; EFFECTIVE mass (Physics)
- Publication
Canadian Journal of Chemistry, 2016, Vol 94, Issue 8, p674
- ISSN
0008-4042
- Publication type
Article
- DOI
10.1139/cjc-2016-0117