Junction studies on electrochemically fabricated p-n Cu sub(2)O homojunction solar cells for efficiency enhancement

p-n Cu sub(2)O homojunction solar cells were electrochemically fabricated by consecutively depositing an n-Cu sub(2)O layer on a p-Cu sub(2)O layer. In order to better understand the Fermi levels of the electrochemically grown polycrystalline p- and n-Cu sub(2)O layers and maximize the overall cell...

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Veröffentlicht in:	Physical chemistry chemical physics : PCCP 2012-04, Vol.14 (17), p.6112-6118
Hauptverfasser:	McShane, Colleen M, Choi, Kyoung-Shin
Format:	Artikel
Sprache:	eng
Schlagworte:	Copper COPPER OXIDE CUPROUS OXIDE DEPOSITION FABRICATION FOIL Foils Heterojunctions Homojunctions INTERFACES MICA Photovoltaic cells Physical chemistry Solar cells
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container_title	Physical chemistry chemical physics : PCCP
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creator	McShane, Colleen M Choi, Kyoung-Shin
description	p-n Cu sub(2)O homojunction solar cells were electrochemically fabricated by consecutively depositing an n-Cu sub(2)O layer on a p-Cu sub(2)O layer. In order to better understand the Fermi levels of the electrochemically grown polycrystalline p- and n-Cu sub(2)O layers and maximize the overall cell performance, the back and front contacts of the Cu sub(2)O homojunction cells were systematically changed and the I-Vcharacteristics of the resulting cells were examined. The result shows that the intrinsic doping levels of the electrochemically prepared p-Cu sub(2)O and n-Cu sub(2)O layers are very low and they made almost Ohmic junctions with Cu metal with which previously studied p-Cu sub(2)O layers prepared by thermal oxidation of Cu foils are known to form Schottky junctions. The best cell performance (an eta of 1.06%, a V sub(OC) of 0.621 V, an I sub(SC) of 4.07 mA cm super(-2), and a fill factor (ff) of 42%) was obtained when the p-Cu sub(2)O layer was deposited on a commercially available ITO substrate as the back contact and a sputter deposited ITO layer was used as the front contact on the n-Cu sub(2)O layer. The unique features of the p-n Cu sub(2)O homojunction solar cell are discussed in comparison with other Cu sub(2)O-based heterojunction solar cells.
doi_str_mv	10.1039/c2cp40502d
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source	Royal Society Of Chemistry Journals 2008-; Alma/SFX Local Collection
subjects	Copper COPPER OXIDE CUPROUS OXIDE DEPOSITION FABRICATION FOIL Foils Heterojunctions Homojunctions INTERFACES MICA Photovoltaic cells Physical chemistry Solar cells
title	Junction studies on electrochemically fabricated p-n Cu sub(2)O homojunction solar cells for efficiency enhancement
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