Several series of multi-branched chromophores containing tetra-substituted ethylene and quinoxalinoid hetercyclic structures have been synthesized and characterized for their linear and nonlinear optical properties. The experimental results show that adding electron donor to the structure or extending the??-conjugation length will make a red-shift in the best absorption wavelength and also enhance the molecular two-photon absorptivities. We also found that inserting quinoxalinoid hetercyclic structures to our model chromophores especially indenoquinoxaline structure may exhibit strong two-photon activities and also cause conspicuous solvent effects in solution phase. It will have higher fluorescence quantum yield in nonpolar solvent like toluene, but longer fluorescence life time in polar solvent like THF. Because these model chromophores possessed excellent effective optical power limiting behaviors with strong two-photon absorption, so they could be efficacious optical limiters especially when against longer laser pulses.