Enhancement of charge photo-​generation and transport via an internal network of Sb2Se3​/Cu2GeSe3 heterojunctions

Interpenetrating iodine-​doped-​Sb2Se3/Cu2GeSe3 heterojunction network has been fabricated by controlling the crystn. of a chalcogenide glass. These two crystals absorb strongly and widely the solar spectrum for efficient charge photo-​generation, the heterojunction formed by these two crystals grea...

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Published in:Journal of materials chemistry. A, Materials for energy and sustainability Materials for energy and sustainability, 2014-10, Vol.2 (40), p.17099-17106
Main Authors: Zhang, Xianghua, Xu, Yang, Shen, Qianhong, Fan, Bo, Qiao, Xvsheng, Fan, Xianping, Yang, Hui, Luo, Qun, Calvez, Laurent, Ma, Hong-Li, Cathelinaud, Michel, Simon, Jean-Jacques
Format: Article
Language:English
Subjects:
Chemical Sciences
Material chemistry
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Summary:Interpenetrating iodine-​doped-​Sb2Se3/Cu2GeSe3 heterojunction network has been fabricated by controlling the crystn. of a chalcogenide glass. These two crystals absorb strongly and widely the solar spectrum for efficient charge photo-​generation, the heterojunction formed by these two crystals greatly promotes the charge sepn. More importantly, these free charge carriers can be efficiently transported through the conductive channels formed by the oriented Cu2GeSe3 nanoparticles aggregated between the Sb2Se3 rods. The photo-​electrochem. measurement shows that this structure results in a photocurrent of 74 μA​/cm2 and a photo-​current​/dark-​current ratio over 12 times at bias voltage of -​0.6 V and under an illumination of 250 W​/cm2. This photocurrent is at least 100 times higher than any of these two crystals individually.
ISSN:2050-7488
2050-7496
DOI:10.1039/C4TA03491K