We have synthesized a ruthenium(II)-polypyridyl photosensitizer, which contains an electron-rich cyclopentadienyl ruthenium (II) moiety in the polypyridyl ligand. The incorporation of electron-rich moiety in Ru(II)-based sensitizers has shown improvements in their extinction coefficients and bathochromic shift of the absorption spectral coverage. The photophysical properties and cell performance were studied in detail. The DSSC performance did not achieve the original expectation with efficiency 1.06% (Jsc = 3.08 mA/cm2, Voc = 0.53 V, FF = 0.66). The low photocurrent density was ascribed to the exist of low-lying LUMO level in CT-1, which lacks of sufficient driving force for charge injection. On the other hand, the exist of high-lying HOMO level resulted in rapid charge recombination that suppresses the open-circuit voltage to reach the expected value.