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Nanoparticle Oxides Precursor Inks for Thin film Copper Indium Gallium Selenide (CIGS) Solar Cells

Published online by Cambridge University Press:  21 March 2011

Vijay K. Kapur
Affiliation:
International Solar Electric Technology (ISET) 8635 Aviation Blvd., Inglewood, CA 90301
Matthew Fisher
Affiliation:
International Solar Electric Technology (ISET) 8635 Aviation Blvd., Inglewood, CA 90301
Robin Roe
Affiliation:
International Solar Electric Technology (ISET) 8635 Aviation Blvd., Inglewood, CA 90301
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Abstract

The paper describes ISET's patented non-vacuum process for low cost mass production of CIGS solar cells. In this process, the water based precursor inks of mixed oxides are deposited on various conducting substrates by a variety of non-vacuum coating techniques. The oxides are converted to CIGS by annealing and the device is completed by deposition of CdS by CBD followed by ZnO deposition by MOCVD. Small area solar cells with efficiency >13% have been fabricated by this process. The advantages of this non-vacuum process are: high compositional control of the absorber layer, high materials utilization and low cost.

Type
Research Article
Copyright
Copyright © Materials Research Society 2001

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References

Refernces

1. Contreras, M. A., Egaas, B., Ramanathan, K., Hiltner, J. U., Swaartzlander, A., Hasoon, F., and Noufi, R., Progress in Photovoltaics, Short communication, July-August, 1999.Google Scholar
2. Kapur, V. K., Basol, B. M., Leidholm, C. R., Norsworthy, G., Halani, A. and Roe, R., ‘Photovoltaics for the 21stCentury’ Proceedings Volume 99–11, 1999, pp 7885, The Electrochemical Society, New Jersey, USA.Google Scholar
3. Kapur, Vijay K., Basol, Bulent M., Leidholm, Craig R. and Roe, Robert A., U. S. Patent No. 6,127,202, Oct. 3, 2000 Google Scholar