The projects involved in this thesis mainly attempted to design and synthesize some novel two-photon absorbing model compounds and investigate their optical properties. The two-photon-absorption-related properties of these model compounds were characterized by using high peak power infra-red laser pluses working in femto-second regime. By analyzing the correlation between the model compounds and the observed two-photon absorption properties, we have concluded some useful information for the molecular design: First, it is observed that the molecular two-photon absorptivity can be promoted by extending of the π-conjugation length in our compound system. Second, two-photon absorption property can be effectively enhanced if the π-delocalization domain can be properly expanded. Third, the parallel comparison of the all analogues in our model compound system indicates that indeno- fluorene is a better two-photon activity enhancer over fluorene.