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Journal Article Synthesis and Crystallization of CuIn1_xGaxSe2 Compounds Formed via Co-Sputtering with Se Vapor
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Authors
Jae-Hyung Wi, Young-Hee Joo, Yong-Duck Chung, Jae-Hyung Jang, Chang-Il Kim
Issue Date
2018-04
Citation
Science of Advanced Materials, v.10, no.4, pp.547-553
ISSN
1947-2935
Publisher
American Scientific Publishers
Language
English
Type
Journal Article
DOI
https://dx.doi.org/10.1166/sam.2018.3060
Abstract
Cu(In,Ga)Se 2 (CIGS) thin films (2.5 m thick) were prepared via a two-stage process. First, CuInGa (CIG) precursor films were prepared from a CuGa (7:3) alloy and an first, CuInGa precursor films were prepared from the CuGa (7:3) alloy and the In single target by co-sputtering. To control the CIG chemical composition ratio, weights of the Cu, Ga, and In atoms were estimated in the CuGa and In films, respectively. The samples were selenized in a two-zone furnace at 550 C for 90 mins under Se vapor, developed at 330 C using N 2 carrier gas, followed by heating at 600 C for 30 mins. Grain sizes of the CIGS film obtained via selenization of the CuInGa precursor film became larger and smoother than that of the CuInGa precursor. The single phase exhibited high efficiency, whereas cells with multiphase layers exhibited low efficiency. The open-circuit voltage, short-circuit current density, fill factor, and photoconversion efficiency values of the best performing CIGS solar cells were: 0.552 V, 27.8 mA/cm 2 , 51.2%, and 7.84% from CIGS absorbers via selenization at 550 C on a CuInGa precursor (CuGa 50 W, In 52 W).
KSP Keywords
CIGS film, CIGS solar cell, Carrier gas, Co-sputtering, Composition ratio, Grain size, N 2, Open circuit voltage(VOC), Photo-conversion efficiency, Precursor film, Short circuit current density