AI Article Synopsis
- Chalcopyrite CuInSe (CISe)-based thin-film solar cells have gained attention since the 1970s, with established technology now leading to commercial products.
- Despite advancements, there are still many unexplored aspects of the materials science and defect physics in CISe-based films and devices that need further research.
- The paper reviews critical issues in CISe materials and devices, including Cu-deficient phases, alkali-metal effects, flexible solar minimodules, and open circuit voltage loss analysis.
Article Abstract
Chalcopyrite CuInSe (CISe)-based thin-film photovoltaic solar cells have been attracting attention since the 1970s. The technologies of CISe-based thin-film growth and device fabrication processes have already been put into practical applications and today commercial products are available. Nevertheless, there are numerous poorly understood areas in the physical and chemical aspects of the underlying materials science and interfacial and bulk defect physics in CISe-based thin-films and devices for further developments. In this paper, current issues in physical and chemical studies of CISe-based materials and devices are reviewed. Correlations between Cu-deficient phases and the effects of alkali-metals, applications to lightweight and flexible solar minimodules, single-crystalline epitaxial Cu(In,Ga)Se films and devices, differences between Cu(In,Ga)Se and Ag(In,Ga)Se materials, wide-gap CuGaSe films and devices, all-dry processed CISe-based solar cells with high photovoltaic efficiencies, and also fundamental studies on open circuit voltage loss analysis and the energy band structure at the interface are among the main areas of discussion in this review.
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| http://dx.doi.org/10.1039/d1cp04495h | DOI Listing |
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