Cu(In,Ga)Se2 (CIGS) and CuGaSe2 (CGS) solar cells were fabricated using Cd1-xZnxS (CdZnS) buffer layers prepared by chemical bath deposition (CBD) with relative Zn compositions in the CBD bath values of Xbath=0 (i.e., pure CdS), 0.1, 0.2, 0.3, 0.4, and 0.5. The cell performance parameters of CIGS and CGS films treated with a KCN solution were investigated and compared to cells without KCN treatment. It was found that absorber films treated with KCN etching prior to the buffer CBD step show an improved cell performance for both the CIGS and CGS cells deposited with either CdS or CdZnS buffer layer. A CIGS cell with CdZnS buffer layer of Xbath=0.2 produced a 13% AM1.5G conversion efficiency with higher Voc, Jsc, and FF values as compared to the CdZnS/CIGS cells with different Zn contents. Results of photo- J-V and quantum efficiency (QE) measurements reveal that the CGS cell with CdZnS buffer layer of Xbath=0.3 performed better than the CGS cell deposited with a pure CdS buffer layer. This result is suggested as a result of an increased photocurrent at shorter wavelengths and a more favorable conduction band-offset at the CdZnS/CGS junction
[1]
A. Zunger,et al.
Calculated natural band offsets of all II–VI and III–V semiconductors: Chemical trends and the role of cation d orbitals
,
1998
.
[2]
D. Schmid,et al.
Chalcopyrite/defect chalcopyrite heterojunctions on the basis of CuInSe2
,
1993
.
[3]
P. Reddy,et al.
Polycrystalline CuGaSe2 thin film solar cells
,
1992
.
[4]
K. T. Ramakrishna Reddy,et al.
Studies of ZnxCd1-xS films and ZnxCd1-xS/CuGaSe2 heterojunction solar cells
,
1992
.
[5]
Rommel Noufi,et al.
Improved Performance in CuInSe2 and Surface-Modified CuGaSe2 Solar Cells
,
2005
.