Defect interactions and the role of complexes in the CdTe solar cell absorber

While the electrical and optical properties of most crystalline materials are determined by the point defects, the association of these defects into complexes may further alter material properties, introducing new important phenomena. The properties of isolated point defects in CdTe have attracted s...

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Bibliographic Details
Published in:Journal of materials chemistry. A, Materials for energy and sustainability Materials for energy and sustainability, 2017, Vol.5 (7), p.353-3513
Main Authors: Krasikov, Dmitry, Sankin, Igor
Format: Article
Language:English
Subjects:
CdTe solar cells
Clusters
complexes
Crystal defects
defects
Devices
Instability
Point defects
Renewable energy
Segregations
Solar cells
SOLAR ENERGY
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Summary:While the electrical and optical properties of most crystalline materials are determined by the point defects, the association of these defects into complexes may further alter material properties, introducing new important phenomena. The properties of isolated point defects in CdTe have attracted significant research efforts, yet understanding of the complex defects in this material remains insufficient. This paper investigates the thermodynamic aspects of defect association in chlorinated copper-doped CdTe absorbers from first principles, using a supercell approach with the range-separated hybrid exchange-correlation functional. Based on the complex association energies calculated for 76 defect reactions, we propose the most favorable pair complexes formed in Cl- and Cu-doped CdTe absorbers. Most of the complexes studied in this work appear to be harmful for p-doping and may be responsible for the performance instabilities observed in CdTe devices. We also discuss a plausible passivation mechanism that mitigates Te Cd recombination centers during Cl treatment and consider the formation of larger defect clusters and segregation of the point defects on extended defects. Association of crystalline point defects in chlorinated Cu-doped CdTe PV absorbers studied to assess its impact on performance and stability.
ISSN:2050-7488
2050-7496
DOI:10.1039/c6ta09155e