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Enhancing the Performance of an Sb 2 Se 3 -Based Solar Cell by Dual Buffer Layer

Author

Listed:
  • Mamta

    (Academy of Scientific and Innovative Research (AcSIR), Ghaziabad 201002, India
    Indian Reference Materials (BND) Division, CSIR-National Physical Laboratory, K. S. Krishnan Marg, New Delhi 110012, India)

  • Kamlesh Kumar Maurya

    (Academy of Scientific and Innovative Research (AcSIR), Ghaziabad 201002, India
    Indian Reference Materials (BND) Division, CSIR-National Physical Laboratory, K. S. Krishnan Marg, New Delhi 110012, India)

  • Vidya Nand Singh

    (Academy of Scientific and Innovative Research (AcSIR), Ghaziabad 201002, India
    Indian Reference Materials (BND) Division, CSIR-National Physical Laboratory, K. S. Krishnan Marg, New Delhi 110012, India)

Abstract

In an Sb 2 Se 3 -based solar cell, the buffer layer is sandwiched between the absorber and the window layer, playing an essential role in interfacial electricity. Generally, CdS is used as a buffer layer, but its toxic nature and low bandgap can cause current loss because of parasitic absorption. In this work, we optimized the buffer layer by using ZnS as an alternative to the CdS buffer layer in order to decrease the use of CdS. The effect of different buffer layers on the solar device was explored by numerical simulation with the help of SCAPS 1D software. The basic parameters, such as open-circuit voltage (Voc), current density (Jsc), fill factor (FF), and efficiency (η) were analyzed and compared for both the buffer layers (CdS/ZnS). The results demonstrate that changing buffer materials and thicknesses has a significant impact on cell performance. The efficiency for the ZnS buffer layer was lower compared to that of the CdS-based solar cells because of insufficient energy band alignment. In order to enhance the efficiency of Sb 2 Se 3 -based solar cells, we used CdS/ZnS dual buffer layers and studied the device performance. The work function of the back contact also affects the device performance, and for work functions below 4.8 eV, the device’s efficiency was very low. The effect of varying the thicknesses and temperatures of the buffer layers on the I-V/C-V characteristics, quantum efficiency, and energy band structure are also reported. This study shall guide the researcher in reducing CdS and improving the device’s performance.

Suggested Citation

  • Mamta & Kamlesh Kumar Maurya & Vidya Nand Singh, 2021. "Enhancing the Performance of an Sb 2 Se 3 -Based Solar Cell by Dual Buffer Layer," Sustainability, MDPI, vol. 13(21), pages 1-12, November.
    • Handle: RePEc:gam:jsusta:v:13:y:2021:i:21:p:12320-:d:674547
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    References listed on IDEAS

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    1. Zhiqiang Li & Xiaoyang Liang & Gang Li & Haixu Liu & Huiyu Zhang & Jianxin Guo & Jingwei Chen & Kai Shen & Xingyuan San & Wei Yu & Ruud E. I. Schropp & Yaohua Mai, 2019. "9.2%-efficient core-shell structured antimony selenide nanorod array solar cells," Nature Communications, Nature, vol. 10(1), pages 1-9, December.
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