Research on photovoltaic solar cells has always been exciting due to its clean and green nature. However, the quest for alternative approaches to the design of highly efficient solar cells with optimal cost-efficiency ratios has also been progressing. CuSbS ₂ -based ternary compound semiconductor is a promising candidate for the ultrathin film photovoltaic cell due to the high absorption coefficient, low cost, and earth abundant which makes it suitable to use as a thin-film absorber layer. The impact of various parameters such as thickness, bandgap, band alignment, temperature, carrier concentration, and bandgap grading has been studied to optimize the overall performance of the solar device. In present work, we have adopted the Solar Cell Capacitance Simulator in One Dimension (SCAPS-1D) simulation approach to the design of CuSbS ₂ absorber-based solar heterostructure cells to boost the electrical properties of the solar cell.

中文翻译：

---

基于CuSbS 2吸收剂的光伏太阳能电池建模以提高性能

由于其清洁和绿色的性质，对光伏太阳能电池的研究一直令人兴奋。然而，对于设计具有最佳成本效率比的高效太阳能电池的替代方法的要求也在不断发展。CuSbS ₂ 基三元化合物半导体由于其高吸收系数，低成本和丰富的土质而成为超薄膜光伏电池的有前途的候选者，这使其适合用作薄膜吸收层。已经研究了各种参数的影响，例如厚度，带隙，能带对准，温度，载流子浓度和带隙梯度，以优化太阳能装置的整体性能。在目前的工作中，我们采用了一维太阳能电池电容模拟器（SCAPS-1D）模拟方法来设计基于CuSbS ₂吸收体的太阳能异质结构电池，以提高太阳能电池的电性能。