A series of trans-stilbene moiety dyes were designed and synthesized based on the donor-bridge-acceptor (D-B-A) system for the application of dye-sensitized solar cells. Besides typically para-conjugated, the meta-bridge dyes were developed in order to examine the difference of structural effect. The ideal bridge would promote electron transfer from donor to acceptor while resisting electron transfer in the reverse direction and thus suppressing charge recombination. In addition the ionic liquids electrolytes and different dye baths have been used to investigate the performance and the characteristics. It is inherently that electronic coupling through a meta-bridge is weaker than through a para one, however recent meta-bridge undergoes enhanced electronic coupling in the excited state. The meta-bridge isomers shorten conjugation system, to cause the photocurrent transport trapped inevasible and low JSC. Thence the meta conjugation effect should be further study in terms of molecular structure, and looking forward to overcome this drawbacks. In our study the well-known dye (PP) shows a prominent solar-to-energy conversion efficiency (η) 5.34%, and meta conjugated dye(PPM) also shows 2.89%.