Effect of post annealing on the characteristics of In2S3 buffer layer grown by chemical bath deposition on a CIGS substrate

In₂S₃ as an alternative Cd-free buffer in Cu(In,Ga)Se₂ (CIGS) solar cells was deposited on CIGS substrate by a chemical bath deposition and characterized after post annealing to optimize film properties for CIGS solar cells. A uniform and pinhole-free In₂S₃ film was deposited on a CIGS substrate by H₂O₂ treatment prior to chemical bath deposition. The In₂S₃ layer was an amorphous state due to the co-existence of In–S, In–O, and In–OH bonds. Annealing at 200 °C induced copper diffusion from CIGS into In₂S₃ layer and lowered the band gap from 3.3 to 1.9 eV, leading to phase change from amorphous state to crystalline state. The conduction band alignment at the In₂S₃/CIGS interface can be controlled by the post annealing. The shunt current through In₂S₃ film was prevented down to the thickness of 30 nm and a 1.15 eV shallow defect was eliminated by the annealing. The results indicated that post annealing in air is a critical to fabricate CIGS solar cells with a sub-30 nm CBD-In₂S₃ buffer layer.