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Properties of amorphous silicon passivation layers for all back contact c-Si heterojunction solar cells

Published online by Cambridge University Press:  27 June 2011

Lulu Zhang ,
Ujjwal Das ,
Jesse Appel ,
Steve Hegedus  and
Robert Birkmire
Lulu Zhang
Affiliation:
Institute of Energy Conversion, University of Delaware, Newark DE 19716 Department of Physics and Astronomy, University of Delaware, Newark DE 19716
Ujjwal Das
Affiliation:
Institute of Energy Conversion, University of Delaware, Newark DE 19716
Jesse Appel
Affiliation:
Institute of Energy Conversion, University of Delaware, Newark DE 19716
Steve Hegedus
Affiliation:
Institute of Energy Conversion, University of Delaware, Newark DE 19716
Robert Birkmire
Affiliation:
Institute of Energy Conversion, University of Delaware, Newark DE 19716 Department of Physics and Astronomy, University of Delaware, Newark DE 19716
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Abstract

Low temperature deposited Interdigitated All Back Contact a-Si:H/c-Si Heterojunction (IBC-SHJ) devices are a promising approach for high efficiency, low cost solar cells on thin wafers. Thin intrinsic a-Si:H films (i-a-Si:H) deposited below 300°C provide excellent surface passivation and high Voc. However, the optical properties of a-Si:H layers and electronic band alignment at the heterointerface are critical to reduce optical losses and transport barriers in IBC-SHJ solar cells. At the front illumination surface, a wide band gap (Eg) i-a-Si:H layer with good passivation is desirable for high Voc and Jsc while at the rear surface a narrower Eg i-a-Si:H layer with good passivation is required for higher FF and Voc as seen in 2D numerical simulation. Various substrate temperature, H2/SiH4 dilution ratio and plasma power conditions were explored to obtain i-a-Si:H with good passivation and desired Eg. All the deposited films are characterized by Variable Angle Spectroscopic Ellipsometry (VASE) to determine Eg and thickness and by Fourier Transform Infrared spectroscopy (FTIR) to estimate hydrogen content and microstructure factor. Passivation qualities are examined by quasi-steady state photoconductance (QSS-PC) measurement. The i-layer Eg, was varied in the range from ~1.65eV to 1.91eV with lifetime >1 ms. Lowest Eg is obtained just prior to the structure transition from amorphous to epitaxial-like growth. The FF of IBC-SHJ devices improved from 20% to 70% as Eg of the a-Si:H rear passivation layer decreased from 1.78 to 1.65 eV.

Keywords

photovoltaicplasma-enhanced CVD (PECVD) (deposition)amorphous
Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 1321: Symposium A – Amorphous and Polycrystalline Thin-Film Silicon Science and Technology , 2011 , mrss11-1321-a16-03
Copyright
Copyright © Materials Research Society 2011

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References

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