Abstract
Abstract The presence of H 2 Se is important for the growth of the grain size of sputtered CIGS during the selenization. However, the crystallization of the surface CIGS results in the higher density of the local area that suppressed the diffusion of H 2 Se in the region 600 nm beneath the surface and caused the presence of the small grains inside the CIGS. Therefore, the 1600-nm-thick absorber was consisted by 1100-nm-thick and 500-nm-thick sublayers in order to enhance the crystallinity. The bilayer process can increase the size of CIGS grains. The increase of the crystallinity of CIGS absorber enhanced the short-circuit current, the fill factor, and the conversion efficiency of the solar cells to 11.8%.
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