Effect of solid-H2S gas reactions on CZTSSe thin film growth and photovoltaic properties of a 12.62% efficiency device
Autor: | Young-Ill Kim, Dae-Hwan Kim, Shi-Joon Sung, Se-Yun Kim, Kee-Jeong Yang, Jun-Hyung Sim, Dong-Hwan Jeon, Jin-Kyu Kang, Seung-Hyun Kim, Dae-Ho Son, Si-Nae Park, Dae-Kue Hwang |
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Rok vydání: | 2019 |
Předmět: |
Materials science
Volatilisation Renewable Energy Sustainability and the Environment Annealing (metallurgy) Band gap Energy conversion efficiency Crystal growth 02 engineering and technology General Chemistry 021001 nanoscience & nanotechnology law.invention Chemical engineering law Solar cell General Materials Science Thin film 0210 nano-technology Stoichiometry |
Zdroj: | Journal of Materials Chemistry A. 7:25279-25289 |
ISSN: | 2050-7496 2050-7488 |
DOI: | 10.1039/c9ta08310c |
Popis: | We fabricated CZTSSe thin films using optimized SLG-Mo/Zn/Cu/Sn (MZCT) as a stacked structure and described the phenomenon of Zn elemental volatilization using the MZCT stacked structure. We introduced H2S gas to effectively control the S/(S + Se) ratio of the film in the sulfo-selenization process and to suppress Zn volatilization. Unlike during the selenization process, a stable ZnSSe thin film was formed on the precursor surface during the sulfo-selenization process. The formation of the ZnSSe thin film inhibited Zn volatilization, which facilitated control of the thin film stoichiometry and played an important role in crystal growth. In addition, the sulfo-selenization process using H2S forms a grading of the S/(S + Se) ratio in the depth direction in the ZnSSe layer. The ZnSSe layer with this property causes the band gap grading in the CZTSSe absorption layer. Finally, through our optimized annealing process, we realized a world record CZTSSe solar cell with a certified power conversion efficiency of 12.62% and a centimetre-scale (1.1761 cm2) efficiency of 11.28%. |
Databáze: | OpenAIRE |
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