A NEW CONCEPT TOWARD INDUSTRIALIZATION OF Cu-III-VI2 THIN FILM SOLAR CELLS AND SOME PRELIMINARY EXPERIMENT RESULTS

A new concept of full vacuum manufacturing for Cu-III-I V2 thin-film solar cells has been discussed. Cu-III-I V2 thin film solar cells manufactured using full in-line reactive sputtering will result in lower cost than that of the conventional method with CdS layer fabricated with chemical bath depos...

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Veröffentlicht in:	Acta metallurgica sinica : English letters 2005-06, Vol.18 (3), p.199-203
Hauptverfasser:	Shao, L X, Hwang, H L
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Sprache:	eng
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container_title	Acta metallurgica sinica : English letters
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creator	Shao, L X Hwang, H L
description	A new concept of full vacuum manufacturing for Cu-III-I V2 thin-film solar cells has been discussed. Cu-III-I V2 thin film solar cells manufactured using full in-line reactive sputtering will result in lower cost than that of the conventional method with CdS layer fabricated with chemical bath deposition (CBS) method. Using reactive sputtering process with organometallic gases, the compositions and electronic properties of Cu-III-N, thin film can be fine-tuned and precisely controlled. n-type Cu-III-I V2 film and AS suffer layer can also be deposited using the in-line sputtering instead of using the CdS layer. The environmental pollution problems arising from using CdS can be eliminated and the ultimate goal of full in-line process development can then be realized. Some preliminary experimental results on a modal solar cell fabricated by the new technique in the new concept have been presented.
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Cu-III-I V2 thin film solar cells manufactured using full in-line reactive sputtering will result in lower cost than that of the conventional method with CdS layer fabricated with chemical bath deposition (CBS) method. Using reactive sputtering process with organometallic gases, the compositions and electronic properties of Cu-III-N, thin film can be fine-tuned and precisely controlled. n-type Cu-III-I V2 film and AS suffer layer can also be deposited using the in-line sputtering instead of using the CdS layer. The environmental pollution problems arising from using CdS can be eliminated and the ultimate goal of full in-line process development can then be realized. 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Using reactive sputtering process with organometallic gases, the compositions and electronic properties of Cu-III-N, thin film can be fine-tuned and precisely controlled. n-type Cu-III-I V2 film and AS suffer layer can also be deposited using the in-line sputtering instead of using the CdS layer. The environmental pollution problems arising from using CdS can be eliminated and the ultimate goal of full in-line process development can then be realized. 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title	A NEW CONCEPT TOWARD INDUSTRIALIZATION OF Cu-III-VI2 THIN FILM SOLAR CELLS AND SOME PRELIMINARY EXPERIMENT RESULTS
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