期刊
CHEMSUSCHEM
卷 11, 期 18, 页码 3208-3214出版社
WILEY-V C H VERLAG GMBH
DOI: 10.1002/cssc.201801336
关键词
aqueous solvent; planar heterojunction; power conversion efficiency; Sb2S3; solar cells
资金
- Fundamental Research Funds for the Central Universities [WK2060140023, WK2060140022, CX3430000001, WK2060140024]
- Major/Innovative Program of Development Foundation of Hefei Center for Physical Science and Technology [2016FXZY003]
- Recruitment Program of Global Experts [GG2060140085]
Sb2S3 is a new kind of photovoltaic material that is promising for practical application in solar cells owing to its suitable bandgap, earth-abundant elements, and excellent stability. Here, we report on an aqueous-solution-based approach for the synthesis of Sb2S3 films from easily accessible Sb2O3 as antimony source. In this reaction, 3-mercaptopropionic acid was applied as both solvent and sulfur precursor, aqueous ammonia was employed as a solvent. After simple annealing at a temperature as low as 270 degrees C, the spin-coated precursor solution can generate compact, flat, uniform, and well-crystallized Sb2S3 film. Mechanistic study showed that the formation of Sb-complex with ammonium carboxylates leads to the successful dissolution of Sb2O3 powder. A suitable annealing process was able to generate carbon-free Sb2S3 films. Planar heterojunction solar cell based on the as-prepared Sb2S3 film delivered a power conversion efficiency of 5.57%, which is the highest efficiency of solution-processed planar heterojunction Sb2S3 solar cells and a high value in all kinds of Sb2S3 solar cells. This research provides a convenient approach for the fabrication of device-quality Sb2S3 films, and highlights solution processing of carbon-free metal chalcogenide thin films as a suitable process for application in optoelectronic devices.
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