In this these, some analyses of the commercial crystalline silicon-based P-N junction solar cells are reported. The ideality factor of the solar cell is found to be much larger than 1 and close to 2. It indicates the purity and quality of silicon wafers used for the solar cells are worse than the wafers used in IC industry. For the temperature effect of solar cells, both theoretical derivation and experiment results have been carried out. It is found that open-circuit voltage reduction is the dominant factor that leading to efficiency degradation at higher temperature. And the silicon substrate of the single crystalline solar cell, is found in (100) orientation by X-ray diffraction.Besides, strain technique is used on these commercial cells, including uniaxial and biaxial strain. The results show the fill factor is enhanced by the strain technique, and the efficiency improves due to the larger fill factor. The small-piece cells with biaxial strain are found with better improvement.About the thin film solar cells. Germanium is taken as the active layer due to the higher mobility and larger absorption coefficient as compared to silicon. A low temperature wafer bonding technique is introduced. This technique is taken to transfer a 1.3μm thin film crystalline germanium on a glass with indium tin oxide coated. Then, the thin film solar cells are fabricated with this substrate.