Title: Noncovalent Interaction between Aniline and Carbon Nanotubes: Effect of Nanotube Diameter and the Hydrogen-Bonded Solvent Methanol on the Adsorption Energy and the Photophysics
Abstract: The adsorption of aniline on SWCNTs has been investigated using three different DFT methods, PW91LYP, the hybrid m-GGA MPWB1K, and the dispersion-corrected BP86-D functionals. The BSSE-corrected adsorption energies for top orientation of aniline to the nanotube surface are Eads = 9.7 kcal mol−1 and Eads = 1.4 kcal mol−1 with BP86-D/SVP and MPWB1K/6-311+G(d), respectively. Results validated that the adsorption energy of aniline depends on the diameter of the nanotube with a pronounced manner, especially for small diameters. The TDDFT calculations of UV/vis spectra predict two electronic transitions resulting from nanotube excitations in the visible spectra (>500 nm) and one imperceptible aniline → SWCNT excitation at ca. 1200 nm. Inclusion of solvent effects (MeOH) by explicit solvent molecules leads to a pronounced red shift of the weak longest wavelength aniline → nanotube transition, whereas the strong intratube excitations are only a little influenced. Fluorescence excitation spectra (λem = 586 nm) of SWCNTs in aniline yield a broad structured absorption in the range of 22 000−18 000 cm−1, which is insensitive to the addition of methanol as cosolvent.
Publication Year: 2010
Publication Date: 2010-03-11
Language: en
Type: article
Indexed In: ['crossref']
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Cited By Count: 15
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