Efficiency improvement of CIGS solar cells by a modified rear contact

•Mo rear electrode is modified with SiN and TiN barrier layer, and Mo:Na as extrinsic alkali source.•The Crystallinity and uniformity of the CIGS absorber are improved by TiN modified Mo rear contact.•The long-term stability of the CIGS solar cells is enhanced by TiN modified Mo rear contact.•Cell e...

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Bibliographic Details
Published in:Solar energy 2017-11, Vol.157, p.486-495
Main Authors: Li, Weimin, Yan, Xia, Xu, Wei-Lun, Long, Jidong, Aberle, Armin G., Venkataraj, Selvaraj
Format: Article
Language:English
Subjects:
Absorbers
Barrier layers
CIGS solar cells
Copper indium gallium selenides
Diffusion barrier layer
Diffusion layers
Efficiency
Electrodes
Fabrication
Gallium
Glass substrates
Indium
Mo back electrode
Modified rear contact
Molybdenum
Photovoltaic cells
Selenide
Soda-lime glass
Sodium
Sodium diffusion
Solar cells
Solar energy
Substrates
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Summary:•Mo rear electrode is modified with SiN and TiN barrier layer, and Mo:Na as extrinsic alkali source.•The Crystallinity and uniformity of the CIGS absorber are improved by TiN modified Mo rear contact.•The long-term stability of the CIGS solar cells is enhanced by TiN modified Mo rear contact.•Cell efficiency is improved from 8.6% to 11.1% using the TiN barrier layer modified Mo rear contact. Molybdenum (Mo) is the most commonly used material for rear contact applications in copper indium gallium selenide (CIGS) solar cells. Improving the functionality of the Mo rear electrode can help to further enhance the efficiency of CIGS solar cells. In this work, four types of rear contacts: (i) conventional bilayer Mo, (ii) and (iii) modified Mo rear contacts with a TiN or SiN barrier layer (TiN/Mo or SiN/Mo), and (iv) a modified Mo contact combined with a TiN barrier layer and a Mo:Na layer as an extrinsic sodium source deposited on soda-lime glass are utilised as substrates for solar cell fabrication. The influences of the rear contact modifications on the properties of the CIGS solar cells are investigated with respect to sodium diffusion from the glass substrate into the CIGS absorber formed by two-step process. We find that the introduction of a thin TiN layer into the stack helps to suppress Na diffusion from the glass substrate into the CIGS absorber, leading to improvements of the crystallinity and lateral uniformity of the CIGS absorber, as well as improved efficiency and long-term stability of the solar cells. A significant improvement of the solar cell efficiency from 8.6% using a conventional bilayer Mo rear contact to up to 11.1% using the modified Mo rear contact with a TiN barrier layer is achieved. This result indicates that the modified rear contact structure developed in this study could be beneficial for fabricating high-efficiency CIGS solar cells.
ISSN:0038-092X
1471-1257
DOI:10.1016/j.solener.2017.08.054