Laser induced defects in laser doped solar cells

Laser doping offers a promising method to define selective emitters for solar cells. Its main advantage is the localised nature of the laser beam, which allows melting of the surface area without heating the bulk. The ability to perform this process over a dielectric film offers further benefits, su...

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Bibliographic Details
Published in:Progress in photovoltaics 2011-06, Vol.19 (4), p.391-405
Main Authors: Hameiri, Z., Puzzer, T., Mai, L., Sproul, A. B., Wenham, S. R.
Format: Article
Language:English
Subjects:
Applied sciences
EBIC
EBSD
Energy
Exact sciences and technology
laser doping
laser induced defects
Natural energy
Photovoltaic conversion
solar cells
Solar cells. Photoelectrochemical cells
Solar energy
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Summary:Laser doping offers a promising method to define selective emitters for solar cells. Its main advantage is the localised nature of the laser beam, which allows melting of the surface area without heating the bulk. The ability to perform this process over a dielectric film offers further benefits, such as the possibility of creating self‐aligned metallisation patterns simultaneously with the selective emitter formation. However, laser induced defects, contaminations and discontinuities in the selective emitter can reduce solar cell performance. In this work the influence of different dielectric films on defect formation is investigated. It was found that a thin oxide beneath the SiNx improves the implied open circuit voltage of the solar cells for a wide range of laser output powers. Fewer defects were observed when using this SiO2/SiNx stack compared to the standard single SiNx anti‐reflection coating layer. It was also found that the recrystallised silicon layer grows epitaxially according the substrate orientation. No dislocation or stacking faults were observed in deeper areas using transmission electron microscopy, although some defects were observed near the surface. Electron beam induced current images revealed discontinuities in junctions formed with high laser powers. We conclude that micro‐cracks create these discontinuities, which can potentially induce shunts. Finally, laser doped solar cells with a standard SiNx and with a double SiO2/SiNx stack layer as anti‐reflection coating were compared. An efficiency of 18.4% on a large area commercial grade p‐type CZ substrate was achieved. Copyright © 2010 John Wiley & Sons, Ltd. Laser‐induced defects were investigated using a variety of characterisation methods. Focus was given to studying the influence of a dielectric film on defects generated. Based on the results of this investigation, 18.4% efficient laser‐doped solar cells were fabricated on commercial grade CZ substrates.
ISSN:1062-7995
1099-159X
1099-159X
DOI:10.1002/pip.1043