Journal
PROGRESS IN PHOTOVOLTAICS
Volume 18, Issue 2, Pages 83-89Publisher
WILEY
DOI: 10.1002/pip.929
Keywords
thin film silicon; solar cells; a-Si:H/mu c-Si:H; cost-effective; PECVD; stability
Funding
- Sontor GmbH
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Silicon based thin tandem solar cells were fabricated by plasma enhanced chemical vapor deposition (PECVD) in a 30 x 30cm(2) reactor. The layer thicknesses of the amorphous top cells and the microcrystalline bottom cells were significantly reduced compared to standard tandem cells that are optimized for high efficiency (typically with a total absorber layer thickness from 1.5 to 3 mu m). The individual absorber layer thicknesses of the top and bottom cells were chosen so that the generated current densities are similar to each other. With Such thin cells, having a total absorber layer thickness varying from 0.5 to 1.5 mu m, initial efficiencies of 8.6-10.7% were achieved. The effects of thickness variations of both absorber layers on the device properties have been separately investigated. With the help of quantum efficiency (QE) measurements, we could demonstrate that by reducing the bottom cell thickness the top cell current density increased which is addressed to back-reflected light. Due to a very thin a-Si:H top cell, the thin tandem cells show a much lower degradation rate under continuous illumination at open circuit conditions compared to standard tandem and a-Si:H single junction cells. We demonstrate that thin tandem cells of around 550 nm show better stabilized efficiencies than a-Si:H and mu c-Si:H single junction cells of comparable thickness. The results show the high potential of thin a-Si/mu c-Si tandem cells for cost-effective photovoltaics. Copyright (C) 2010 John Wiley & Sons, Ltd.
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