Search results

Search:
in the keywords: Si-doped SWCNTs

Sort By:

Limit search:

Theoretical studies on the electronic structures and spectra of single silicon-doped SWCNTs

100%

Gao P., Yu Y., Ni Z., Teng Q.

Open Chemistry

2010

vol. 8

issue 3

587-593

The equilibrium geometries and electronic structures of a series of SWCNTs doped with a silicon atom were studied by using density function theory (DFT). The most stable doping site of silicon predicted at B3LYP/6-31G(d,p) level was located near the boundary of the SWCNTs. The energy gaps of (3,3) C48, (3,3) C60 and (3,3) C72 were respectively decreased by 0.43, 0.25 and 0.14 eV after doping. Based on the B3LYP/6-31G(d) optimized geometries, the electronic spectra of the doped SWCNTs were computed using the INDO/CIS method. The first UV absorption at 973.9 nm of (5,5)-Si(L) (C59Si) compared with that at 937.5 nm of (5,5) (C60) was red-shifted. The 13C NMR spectra and nuclear independent chemical shifts (NICS) of the doped SWCNTs were investigated at B3LYP/6-31G(d) level. The chemical shift at 119.4 of the carbon atom bonded with the silicon atom in (3,3)-Si(L) (C59Si) in comparison with that at 144.1 of the same carbon atom in (3,3) (C60) moved upfield. The tendency of the aromaticity (NICS = −0.1) for (3,3)-Si(H) (C47Si) with respect to that of the anti-aromaticity (NICS = 6.0) for (3,3) (C48) was predicted. [...]

Refine search results

1 Open Chemistry

1 2010

1 Gao P.

1 Ni Z.

1 Teng Q.

1 Yu Y.

Search results

Theoretical studies on the electronic structures and spectra of single silicon-doped SWCNTs