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Silver-alloyed CIGS solar cell with transparent indium back contacts, 12% efficiency

https://www.pv-magazine-australia.com/2022/06/09/silver-alloyed-cigs-solar-cell-with-transparent-indium-back-contacts-12-efficiency/

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Researchers from the Uppsala University in Sweden have fabricated a silver-alloyed copper, indium, gallium and selenium (ACIGS) thin-film solar cell relying either on indium tin oxide (ITO) transparent back contacts or hydrogen-doped indium oxide (IOH). “The cell can be used as top cells in four-terminal tandem devices,” the research’s corresponding author, Jan Keller, told pv magazine. “For a two-terminal configuration, the bandgaps are too low. For this, a bandgap of at least 1.55 eV is needed.”

The scientists built the cell using a three-stage co-evaporation technique and a high-temperature absorber deposition process. They also utilized cadmium sulfide (CdS) for the buffer layer, ITO and IOH contacts with a thickness of 180/310 nm, and silver alloying to increase the absorber bandgap energy.

As conventional transparent back contacts (TBCs), ITO contacts may cause the formation of gallium oxigen (GaOx) at the TBC/absorber interface, which is detrimental to the cell’s fill factor. “ITO forms a similar amount of GaOx as IOH,” Keller emphasized. “What we found is that a fine-tuning of the sodium fluoride (NaF) supply, as well as using stoichiometric absorber composition, enables high fill factor values and most likely mitigates GaOx formation.”

“The ITO films used in this study effectively block sodium (Na) diffusion from the substrate, according to glow-discharge optical emission spectroscopy (GDOES) measurements,” the researchers highlighted, noting that the origin for the increased sodium sensitivity for the ACIGS solar cell remained unclear.

The ACIGS cell with a band gap of 1.44 eV and with the ITO contacts achieved a power conversion efficiency of 10.4%, an open-circuit voltage of 817 mV, a short-circuit current of 19.3 mA cm2, and a fill factor of 63.4%. The same device with the IOH contacts reached an efficiency of 12.0%, an open-circuit voltage of 835 mV, a short-circuit current of 22.1 mA cm2, and a fill factor of 65.2%.

“We plan to try fabricating these devices in superstrate configuration in the future, which requires the usage of thermally stable buffer layers. In this way, only one glass sheet is needed, which would reduce the costs in a final module,” Keller further explained, adding that efficiency of up to 18% would be required to help the device reach commercial maturity.

The researchers presented the cell in the paper “Wide-Gap Chalcopyrite Solar Cells with Indium Oxide–Based Transparent Back Contacts,” published in RRL Solar.

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