John M. Walls scite author profile

Electricity produced by cadmium telluride (CdTe) photovoltaic modules is the lowest cost in the solar industry, and now undercuts fossil fuel-based sources in many regions of the world. This is due to recent efficiency gains brought about by alloying selenium into the CdTe absorber, which has taken cell efficiency from 19.5% to its current record of 22.1%. While the addition of selenium is known to reduce the bandgap of the absorber material and hence increase cell short-circuit current, this effect alone does not explain the performance improvement. Here, by means of cathodoluminescence (CL) and secondary ion mass spectrometry (SIMS), we show that selenium enables higher luminescence efficiency and longer diffusion lengths in the alloyed material, indicating that selenium passivates critical defects in the bulk of the absorber layer. This passivation effect explains the recordbreaking performance of selenium-alloyed CdTe devices, and provides a route for further efficiency improvement that can result in even lower costs for solar generated electricity.

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Polycrystalline CdSeTe/CdTe Absorber Cells With 28 mA/cm² Short-Circuit Current

Munshi

Kephart

Abbas

et al. 2018

IEEE J. Photovoltaics

197

103

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An XPS study of ion-induced compositional changes with group II and group IV compounds

Christie

Lee

Sutherland

et al. 1983

Applications of Surface Science

216

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John M. Walls

Understanding the role of selenium in defect passivation for highly efficient selenium-alloyed cadmium telluride solar cells

Polycrystalline CdSeTe/CdTe Absorber Cells With 28 mA/cm² Short-Circuit Current

An XPS study of ion-induced compositional changes with group II and group IV compounds

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About

John M. Walls

Understanding the role of selenium in defect passivation for highly efficient selenium-alloyed cadmium telluride solar cells

Polycrystalline CdSeTe/CdTe Absorber Cells With 28 mA/cm2 Short-Circuit Current

An XPS study of ion-induced compositional changes with group II and group IV compounds

Contact Info

Product

Resources

About

Polycrystalline CdSeTe/CdTe Absorber Cells With 28 mA/cm² Short-Circuit Current