The adsorption of organic molecules coumarin and the donor-π-acceptor
type tetrahydroquinoline (C2-1) on anatase (101) and (001) nanowires have been
investigated using screened Coulomb hybrid density functional theory
calculations. While coumarin forms single bond with the nanowire surface, C2-1
additionally exhibits bidentate mode giving rise to much stronger adsorption
energies. Nonlinear solvation effects on the binding characteristics of the dye
chromophores on the nanowire facets have also been examined. These two dye
sensitizers show different electronic charge distributions for the highest
occupied and the lowest unoccupied molecular states. We studied the electronic
structures in terms of the positions of the band edges and adsorbate related
band gap states and their effect on the absorption spectra of the dye-nanowire
combined systems. These findings were interpreted and discussed from the view
point of better light harvesting and charge separation as well as in relation
to more efficient charge carrier injection into the semiconductor nanowire.Comment: 8 pages, 4 figures, and 1 tabl
