Influence of Defects on Solar Cell Characteristics
TLDR
In this article, the authors reviewed the present knowledge of the origin of non-ideal I-V characteristics of silicon solar cells and introduced new results on recombination involving coupled defect levels.Abstract:
The current-voltage (I-V) characteristics of most industrial silicon solar cells deviate rather strongly from the exponential behavior expected from textbook knowledge. Thus, the recombination current may be orders of magnitude larger than expected for the given material quality and often shows an ideality factor larger than 2 in a wide bias-range, which cannot be explained by classical theory either. Sometimes, the cells contain ohmic shunts although the cell’s edges have been perfectly insolated. Even in the absence of such shunts, the characteristics are linear or super-linear under reverse bias, while a saturation would be classically expected. Especially in multicrystalline cells the breakdown does not tend to occur at -50 V reverse bias, as expected, but already at about -15 V or even below. These deviations are typically caused by extended defects in the cells. This paper reviews the present knowledge of the origin of such non-ideal I-V characteristics of silicon solar cells and introduces new results on recombination involving coupled defect levels.read more
Citations
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References
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Proceedings ArticleDOI
Imaging the local forward current density of solar cells by dynamical precision contact thermography
TL;DR: In this article, a periodical forward current is applied to the Si solar cell, and only the dynamical temperature response is measured in contact mode with a resolution below 10 /spl mu/K.
Proceedings ArticleDOI
Conduction processes in silicon solar cells
TL;DR: In this article, a trap assisted tunneling current and field assisted recombination were added to the usual two exponential model (diffusion and recombination) for some solar cells to explain the mechanisms occurring in these cells and to correlate them with the device characteristics.
Predicting multi-crystalline solar cell efficiency from life-time measured during cell fabrication
TL;DR: In this article, the authors demonstrate that the simple Quasi-Steady State area-averaged lifetime measurement method can give similar results to a more sophisticated analysis with high-resolution mapping data.
Journal ArticleDOI
Non-Ideal I-V-Characteristics of Block-Cast Silicon Solar Cells
INVESTIGATION OF MATERIAL-INDUCED-SHUNTS IN BLOCK-CAST MULTICRYSTALLINE SILICON SOLAR CELLS CAUSED BY SiC PRECIPITATE FILAMENTS
M. Hejjo Al Rifai,Otwin Breitenstein,J.P. Rakotoniaina,Martina Werner,A. Kaminski,N. Le Quang,Max Planck +6 more
TL;DR: In this article, the 3-dimentional structure of four types of precipitates found in block-cast shunted silicon solar cells has been elucidated, and it was shown that not the SiC precipitates themselves represent the conducting channels but ring-shaped inversion channels around them.
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