The electronic structures, one-photon absorption (OPA) and two-photon absorption (TPA) properties of the meso-meso singly, the meso-beta doubly and the meso-meso beta-beta beta-beta triply linked Zn-II-porphyrin dimers and trimers have been comparatively studied by using the hybrid B3LYP functional combined with the 6-31G basis set and ZINDO-SOS methods. The results show that on going from the dimers to the trimers, due to the increased conjugation chain, the maximum TPA positions are red-shifted and the maximum TPA cross sections produce a remarkable enhancement. The calculated maximum TPA cross sections of the studied molecules are in the range of 25.4-616.3 x 10(-48) cm(4) s/photon. Compared with the meso-meso singly linked Zn-II-porphyrin derivatives, the meso-beta doubly and the meso-meso beta-beta beta-beta triply linked Zn-II-porphyrin derivatives have larger TPA cross sections at 700-1000 nm. They are promising candidates for TPA materials.

• 出版日期2007-3-16
• 单位吉林大学