Abstract
We have performed ab initio calculations on the stability and structural and electronic properties of the fullerene-like cage (SiC) 12 and its derivative products, the (SiC) 12–(SiC) 12 dimers and (SiC) 12-based nanowires. The (SiC) 12–(SiC) 12 dimers and (SiC) 12-based nanowires are found more stable than the (SiC) 12. The optimized configurations of the (SiC) 12-based nanowires are especially regular and exhibit stable dumbbell-shaped chain structures. The electronic structure calculations indicate that the two novel (SiC) 12-based nanowires have band gaps of 1.586 eV and 2.055 eV, respectively, which may be promising for application in nanotechnology.
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