Comparative study of the role of Ga in CIGS solar cells with different thickness

•The role of Ga in CIGS solar cells with different thickness is comparatively studied.•Effect of Ga on the material properties of 1 μm and 2 μm films is totally different.•The minimum band gap of thinned films is more sensitive to variation of Ga/(Ga + In).•Efficiency of thinned solar cells increases more significantly with Ga increasing.

Cu(In, Ga)Se2 (CIGS) thin films with thickness of 1 μm and 2 μm are prepared by co-evaporation process, and the different Ga/(Ga + In) are achieved by varying the temperature of Ga source. The morphology, structure, minimum band gap, and performance of solar cells are comparatively studied. As Ga/(Ga + In) increases, little changes can be observed in the crystal quality of 1 μm CIGS films, while the grain size of 2 μm films decreases significantly. (112) diffraction peak intensities of the 1 μm and 2 μm films decrease and increase, respectively. In the case of the same Ga/(Ga + In), the minimum band gap values of 1 μm films are larger than that of 2 μm films, and the difference becomes large with Ga/(Ga + In) increasing. The minimum band gap values of 1 μm films are more sensitive to variation of the Ga/(Ga + In). As Ga/(Ga + In) increases, a more improvement of the efficiency of solar cells with thickness of 1 μm is obtained due to the large enhancement of the open-circuit voltage, and the efficiency reaches the maximum value when Ga/(Ga + In) is about 0.37.