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Tailoring Presynthesized Amorphous Sb<sub>2</sub>S<sub>3</sub> Particles Enables High-Efficiency Pure Antimony Sulfide Solar Cells

Xiaolei Li, Yuanjie Yang, Liangliang Feng, Yuanhui Yang, Kai Hu, Hongling Guo, Gang Wang, Yi Zhang

2025ACS Applied Materials & Interfaces19 citationsDOI

Abstract

At present, hydrothermal deposition techniques are unique to attain high-efficiency antimony sulfide (Sb 2 S 3 ) solar cells. It is very common that during the mixing of antimony and sulfur sources before the hydrothermal reaction, the solution quickly changes from colorless to yellow due to the formation of amorphous Sb 2 S 3 particles. However, the effect of presynthesized Sb 2 S 3 particles on the deposition kinetics of Sb 2 S 3 absorber layers and the device performance is completely unknown. To pave the pathway toward high-efficiency Sb 2 S 3 solar cells, it is urgent to disclose the mechanism behind such a phenomenon. By accurately controlling the number and size of presynthesized Sb 2 S 3 particles in the hydrothermal precursor solution, it was found that the suspended Sb 2 S 3 particles act as growth centers, facilitating the orderly deposition of the Sb 2 S 3 film on the substrate, which in turn affects the film’s thickness, grain size, densification, and crystallinity. Based on this finding, the Sb 2 S 3 solar cell with an efficiency of 7.29% is achieved, which is currently one of the highest fundamental efficiency obtained for Sb 2 S 3 prepared by hydrothermal methods without doping. This study lays the groundwork for investigating the growth mechanism of Sb 2 S 3 produced by hydrothermal deposition techniques and provides guidelines for the preparation of high-efficiency Sb 2 S 3 solar cells.

Topics & Concepts

Materials scienceHydrothermal circulationSolar cellChemical engineeringDeposition (geology)AntimonySolar cell efficiencySulfideAmorphous solidCrystallinityEnergy conversion efficiencyMonocrystalline siliconNanotechnologyMineralogyOptoelectronicsSiliconComposite materialCrystallographyMetallurgyChemistrySedimentPaleontologyBiologyEngineeringChalcogenide Semiconductor Thin FilmsQuantum Dots Synthesis And PropertiesPerovskite Materials and Applications
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