The bi-layer structure of Molybdenum back contact was deposited under higher working pressure and lower working pressure respectively. The one deposited at higher working pressure had good adhesion, and the one deposited at lower working pressure had low resistivity. Mo with bi-layer structure had a low resistivity 2.12x10-5Ω-cm. By measuring the I-V curve for Mo/CIGS/Mo structure, the results shows that Mo/CIGS interface form a good ohmic contact. 　　The properties of CIGS absorber layers were affected by precursors and selenization process. As the process temperature increased, the CIGS film had larger grain size. Compared the analysis of composition, we could sum up the Cu composition was coherent with grain size. 　　From the Raman spectrum analysis, high process temperature could suppress Cu2Se signal and CIGS-CA signal. The various cooling time experiment showed the cooling time longer than 20 min could suppress the formation of binary compounds. The large-area (30cm x 40cm) Mo/CIGS could be also prepared by sputtering/non-toxic selenization process. 　　Because the Cu2Se was harmful for device, it had to be removed from CIGS films’ surface. KCN etching could remove Cu2Se from CIGS films’ surface but the etching process caused the CIGS films’ surface roughed. Rough surface caused poor CdS coverage. To estimate the influence of roughness, the following study was to optimize CdS layer. The optimization results could sum up the best deposition time was 42-47 min with thickness 60-80nm. 　　We studied various composition of CIGS film. Open voltage had positive relativity with Ga/(Ga+In) ratio (GGI). However the lower GGI ratio could increase the ideal factor, it showed the recombination current dominative. Compare the performance of the devices under illuminate and in the dark. The shunt conductance under illuminate was higher for one order of magnitude than in the dark. 　　We measured the absorption coefficient to calculate the band gap of ZnO and AZO. The band gap of ZnO and AZO was 3.19eV and 3.55eV respectively. Compared with EQE plot, we could effectively improve the performance of the device.