In this paper, we studies donor effect and acceptor effect for Thienoisoindigo (TII) derivatives at D-A1-π-A2 types Dye-sensitized Solar Cell (DSSC). We discuss dyes optimization structure by B3LYP/ 6-31G（d）method. The electronic properties was calculated by CAM-B3LYP/ 6-31G（d）method. The optical properties was calculated by TD/BHandHLYP/6-31G（d）method. First, we link eight different electron-donor (D) to same -TII-T-CA moiety to discuss donor effect. Acroding to the reasult, the electron-donor (D) has stronger doating ability and high planer between D and TII will cause the HOMO energy increase, the ΔGinj. increase, the maximum absorption wavelength red shift, u_normal increase. In this discussion, We chose DPA fragments to be a good electron-donor (D). Than, we link nine different electron-acceptor(A2) to same DPA-TII-T- moiety to discuss acceptor effect. Acroding to the reasult, the electron-acceptor (A2) has stronger withdrawing ability will cause the LUMO energy decrease, the ΔGinj. increase, the maximum absorption wavelength red shift, u_normal increase. RLHE increase, life-time decrease, leading dyes to be ICT performance. The ECTE needs to consider not only withdrawing ability of electron-acceptor (A2) but also the planarity between anchoring group (COOH) and electron-acceptor (A2). We chose CA fragments to be a good electron-acceptor (A2) in this part. Finily, combining with donor effect and acceptor effect, we choose DPA-TII-T-CA to be a good candidate in this paper. And giving a role to select a good candidate for D-A1-π-A2 type Dye-sensitized Solar Cell（DSSC）.