Current Photovoltaic Research
- Volume 2 Issue 3
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- Pages.88-94
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- 2014
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- 2288-3274(pISSN)
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- 2508-125X(eISSN)
DOI QR Code
Effect of KCN Treatment on Cu-Se Secondary Phase of One-step Sputter-deposited CIGS Thin Films Using Quaternary Target
- Jung, Sung Hee (Department of Chemical Engineering, Inha University) ;
- Choi, Ji Hyun (Department of Chemical Engineering, Inha University) ;
- Chung, Chee Won (Department of Chemical Engineering, Inha University)
- Received : 2014.06.18
- Accepted : 2014.07.15
- Published : 2014.09.30
Abstract
The structural, optical and electrical properties of sputter-deposited CIGS films were directly influenced by the sputtering process parameters such as substrate temperature, working pressure, RF power and distance between target and substrate. CIGS thin films deposited by using a quaternary target revealed to be Se deficient due to Se low vapor pressure. This Se deficiency affected the overall stoichiometry of the films, causing the films to be Cu-rich. Current tends to pass through the Cu-Se channels which act as the shunting path increasing the film conductivity. The crystal structure of CIGS thin films depends on the substrate orientation due to the influence of surface morphology, grain size and stress of Mo substrate. The excess of Cu was removed from the CIGS films by KCN treatment, achieving a suitable Cu concentration (referred as Cu-poor) for the fabrication of solar cell. Due to high Cu concentrations on the CIGS film surface induced by Cu-Se phases after CIGS film deposition, KCN treatment proved to be necessary for the fabrication of high efficiency solar cells. Also during KCN treatment, dislocation density and lattice parameter decreased as excess Cu was removed, resulting in increase of bandgap and the decrease of conductivity of CIGS films. It was revealed that Cu-Se secondary phase could be removed by KCN wet etching of CIGS films, allowing the fabrication of high efficiency absorber layer.