The changes of morphology and composition in Cu(In1−xGax)Se2 powder synthesis by solvothermal method

To prepare the thin film solar cell by the screen printing method, the synthesis of nano CIGS powder has been frequently studied. Especially, the solvothermal method is normally used in the synthesis of CIGS. However, in the synthesis of CIGS, the experimental studies such as the path of phase forma...

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Bibliographic Details
Published in:Metals and materials international 2012, 18(1), , pp.197-199
Main Authors: Gu, Sin-Il, Shin, Hyo-Soon, Hong, Youn-Woo, Yeo, Dong-Hun, Nahm, Sahn
Format: Article
Language:English
Subjects:
Characterization and Evaluation of Materials
Copper indium gallium selenides
Engineering Thermodynamics
Heat and Mass Transfer
Machines
Magnetic Materials
Magnetism
Manufacturing
Materials Science
Metallic Materials
Morphology
Photovoltaic cells
Processes
Screen printing
Short Communications
Solar cells
Solid Mechanics
Thin films
재료공학
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Summary:To prepare the thin film solar cell by the screen printing method, the synthesis of nano CIGS powder has been frequently studied. Especially, the solvothermal method is normally used in the synthesis of CIGS. However, in the synthesis of CIGS, the experimental studies such as the path of phase formation, the composition change of synthesized CIGS, and the change of powder morphology have rarely been reported. In this study, the changes of phase and morphology of the powders were observed with the ratio of In and Ga ions and the increase of reaction temperature. The phases of CIS and CuIn 0.7 Ga 0.3 Se 2 were synthesized in a = 0.1. The phase of CIS and two kinds of CIGS coexisted in the range of a = 0.3∼0.7. In a = 0.9, the single phase of CuIn 0.9 Ga 0.1 Se 2 was synthesized in the same ratio as the source materials. In the case of the a = 0.5 composition, as the concentration of material source and the reaction temperature were increased, the particle size of synthesized CIGS was decreased. The CIGS particles of 200 nm size and the lower aggregate were synthesized in the concentration of 0.01 M at 230 °C.
ISSN:1598-9623
2005-4149
DOI:10.1007/s12540-012-0026-x