We studied a series of organic dye, named OD0, OD1 and OD2 for their applications in dye-sensitized solar cells (DSSC). The structural between OD0, OD1 and OD2 are the peripheral derivations thiophene which contain of benzene on the diphenylamino group. In present study, the results show larger dyes with higher efficiencies. In addition, the device made of OD2 has a large open-circuit voltage (VOC > 0.8 V) similar to that of a Ru complex dye. In this study, we focused on understanding of the fundamental properties of the organic dye, and studying how the structure of the dye influenced the efficiency of DSSC. The results show that the dyes with larger size could help to improve the performance efficiency due to less aggregation and charge recombination. The results also show when OD2 was absorbed on TiO2, upward shift of the TiO2 conduction band, so as to gain a large open-circuit voltage. Longer electron lifetime and a lower injection yield was also observed of OD2. A dipole-moment was provided to explain the observed photovoltaic properties of the metal-free organic dye.