Selenium Flux Effect on Cu(In,Ga)Se 2 Thin Films Grown by a 3‐stage Co‐evaporation Process

An investigation into the effects of Se flux on absorber thin film growth at each step of a 3‐stage co‐evaporation process was conducted to further optimize the performance of CIGS solar cells. In ‘step I’ forming an In‐Ga‐Se precursor thin film during the 3‐stage process, Se flux affected the prefe...

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Published in:Israel journal of chemistry 2015-10, Vol.55 (10), p.1115-1122
Main Authors: Gwak, Jihye, Lee, MinJi, Yun, Jae Ho, Ahn, SeJin, Cho, Ara, Ahn, SeungKyu, Hulme, John P., Shin, Kee Shik, Yoon, Kyung Hoon
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cited_by cdi_FETCH-LOGICAL-c239t-61f641e917a69a245a79b40090453ad03cc53f73068fb343a3e6cb1e0610c1b53
cites cdi_FETCH-LOGICAL-c239t-61f641e917a69a245a79b40090453ad03cc53f73068fb343a3e6cb1e0610c1b53
container_end_page 1122
container_issue 10
container_start_page 1115
container_title Israel journal of chemistry
container_volume 55
creator Gwak, Jihye
Lee, MinJi
Yun, Jae Ho
Ahn, SeJin
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Yoon, Kyung Hoon
description An investigation into the effects of Se flux on absorber thin film growth at each step of a 3‐stage co‐evaporation process was conducted to further optimize the performance of CIGS solar cells. In ‘step I’ forming an In‐Ga‐Se precursor thin film during the 3‐stage process, Se flux affected the preferred orientation of the CIGS crystal structure, but not the film morphology. In ‘step II’, no correlation was found between Se flux and the crystal structure, although excessively high Se flux employed throughout the 3‐stage process degraded the solar cell performance. A CIGS thin film, with a (220/204) crystal orientation, minor physical surface defects and ∼20 nm thick MoSe 2 at CIGS/Mo interface, was obtained by fine control of Se flux conditions (high Se flux at ‘step I’ and low Se flux at ‘step II’) at optimum substrate temperatures. The solar cell fabricated using the aforementioned CIGS thin film showed the highest conversion efficiency of 20.02 %.
doi_str_mv 10.1002/ijch.201500011
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title Selenium Flux Effect on Cu(In,Ga)Se 2 Thin Films Grown by a 3‐stage Co‐evaporation Process
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