High-efficiency Silicon Heterojunction Solar Cells: A Review

Stefaan De Wolf; Antoine Descoeudres; Zachary C. Holman; Christophe Ballif

doi:10.1515/green-2011-0018

Article

High-efficiency Silicon Heterojunction Solar Cells: A Review

Stefaan De Wolf , Antoine Descoeudres , Zachary C. Holman and Christophe Ballif

Published/Copyright: March 28, 2012

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From the journal Green Volume 2 Issue 1

Abstract

Silicon heterojunction solar cells consist of thin amorphous silicon layers deposited on crystalline silicon wafers. This design enables energy conversion efficiencies above 20% at the industrial production level. The key feature of this technology is that the metal contacts, which are highly recombination active in traditional, diffused-junction cells, are electronically separated from the absorber by insertion of a wider bandgap layer. This enables the record open-circuit voltages typically associated with heterojunction devices without the need for expensive patterning techniques. This article reviews the salient points of this technology. First, we briefly elucidate device characteristics. This is followed by a discussion of each processing step, device operation, and device stability and industrial upscaling, including the fabrication of solar cells with energy-conversion efficiencies over 21%. Finally, future trends are pointed out.

Keywords.: Photovoltaics; solar cells; silicon; heterojunctions; high efficiency

Received: 2011-12-21

Accepted: 2012-01-3

Published Online: 2012-03-28

Published in Print: 2012-03-08

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Articles in the same Issue

https://doi.org/10.1515/green-2011-0018

Keywords for this article

Photovoltaics; solar cells; silicon; heterojunctions; high efficiency