ISBN-13: 9783659537547 / Angielski / Miękka / 2014 / 72 str.
This work reports the synthesis and characterization of an artificial light harvesting antenna system, wherein semiconducting nanorods have been used as a support to assemble organic donor- acceptor moieties. The donor-acceptor molecules were assembled on the surface of semiconducting nanorods by grafting. Porphyrins and quinines were used as donors and acceptor molecules. The fashion of co-grafting and porphyrin to quinone ratios were studied which showed donor-accepter interaction significantly. The optoelectronic properties of cografted porphyrin- quinone on surface of ZnO nanorod were investigated by UV visible spectroscopy, Fourier transform infrared spectroscopy, fluorescence spectroscopy and XRD techniques. The nanohybrid material was tested as a photoactive blend of the dye sensitized solar cells.
This work reports the synthesis and characterization of an artificial light harvesting antenna system, wherein semiconducting nanorods have been used as a support to assemble organic donor- acceptor moieties. The donor-acceptor molecules were assembled on the surface of semiconducting nanorods by grafting. Porphyrins and quinines were used as donors and acceptor molecules. The fashion of co-grafting and porphyrin to quinone ratios were studied which showed donor-accepter interaction significantly. The optoelectronic properties of cografted porphyrin- quinone on surface of ZnO nanorod were investigated by UV visible spectroscopy, Fourier transform infrared spectroscopy, fluorescence spectroscopy and XRD techniques. The nanohybrid material was tested as a photoactive blend of the dye sensitized solar cells.