基于 CDS/CDTE 的光伏电池制造工艺和性能分析研究

International Research Journal on Advanced Engineering Hub (IRJAEH) Pub Date : 2024-05-23 DOI:10.47392/irjaeh.2024.0195

Aditi Prateek¹, Kumar Priyadarshini², S. K. Nikhil³, Choubey⁴, P. Tiwary⁵, Rajeev Ranjan

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引用次数: 0

摘要

为了提高光转换效率，我们制作了基于 CDS/CDTE 的异质结光伏电池。我们开发了一种光伏电池，使用的玻璃镀有掺铟氧化锡（ITO），可用作透明导电氧化物（TCO）。涂有 ITO 的玻璃有望提高光伏电池的效率。与整个光伏电池相比，ITO 层具有负极性，因此被用作阳极端子；在这里，我们将其用作与前面层相同的功能。在制造光伏电池时，我们采用刮刀法沉积 CDS 纳米颗粒和 CDTE 层。我们采用纯 CDS 作为窗口层，因为它具有 3.8 eV 的高带隙（粒径：8 nm）；采用 CDTE 作为吸收层，因为它具有高光学吸收系数、高迁移率、良好的载流子寿命和增强的晶体学特性。CDS 窗口层和 CDTE 吸收层共同构成一个 p-n 结，其中 CDS 窗口层捕获高强度光子，并将光激发电子传输到 CDTE 吸收层，从而产生光电流输出，这为探索和测试其进一步应用奠定了基础。为了获得 CDTE 和 CDS 纳米粒子各自的带隙，采用了光学表征方法。银浆用作后触点，以形成具有良好导电性的阳极端子，并为光伏电池提供更好的机械支持。

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Study of Fabrication Process and Performance Analysis of the CDS/CDTE Based Photovoltaic Cell

Fabrication of CDS/CDTE based heterojunction photovoltaic cell has been undertaken to explore better light conversion efficiency. We have developed a photovoltaic cell using glass coated with Indium doped Tin Oxide (ITO) which works as transparent conducting oxide (TCO). ITO coated glass has promising prospects of enhancing the efficiency of the photovoltaic cell. ITO layers are known to be employed as anode terminal due to the negative polarity they possess compared to the whole PV cell; here, we have employed it for the same function as the front layer. During fabrication of the photovoltaic cell, the deposition of nanoparticles of CDS and CDTE layer is undertaken through doctor-blade method. We have employed pure CDS as window layer for its high band gap of 3.8 eV (particle size: 8 nm) and CDTE as absorber layer due to its high optical absorption coefficient with high mobility, good carrier lifetime and enhanced crystallographic properties. The CDS window layer and CDTE absorber layer together constitute a p-n junction where the CDS window layer captures high intensity photons and transmits the photo-excited electron to CDTE absorber layer, thereby leading to photo-current output, which serves as a base to explore and test its further applications. To obtain band gap of respective CDTE and CDS nanoparticles, optical characterization is used. Silver paste is used as rear contact to form anode terminal having good conductivity and providing better mechanical support to the photovoltaic cell.

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International Research Journal on Advanced Engineering Hub (IRJAEH)

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