High-efficiency CIGS solar cell by optimization of doping concentration, thickness and energy band gap

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High-efficiency CIGS solar cell by optimization of doping concentration, thickness and energy band gap

机译：通过优化掺杂浓度，厚度和能带隙的高效CIGS太阳能电池

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In this paper, the performance of copper-indium-gallium-diselenide Cu(In,Ga)Se-2 solar cell, with ZnO window layer, ZnSe buffer layer, CIGS absorber layer and InGaP reflector layer was studied. The study was performed using the TCAD Silvaco simulator. The effects of grading the band gap of CIGS absorber layer, the various thicknesses and doping concentrations of different layers have been investigated. By optimizing the solar cell structure, we have obtained a maximum open circuit voltage of 0.91901 V, a short circuit current density of 39.89910 mA/cm(2), a fill factor (FF) of 86.67040% and an efficiency of 31.78% which is much higher than the values for similar CIGS solar cells reported so far.

机译：本文研究了用ZnO窗层，ZnSe缓冲层，CIGS吸收层和摄入反射器层的铜 - 铟 - 镓 - 二烯化铜（In，Ga）Se-2太阳能电池的性能。使用TCAD Silvaco Simulator进行该研究。研究了CIGS吸收层的带隙的效果，已经研究了不同层的各种厚度和掺杂浓度的效果。通过优化太阳能电池结构，我们已经获得了0.91901V的最大开路电压，短路电流密度为39.89910mA / cm（2），填充因子（FF）为86.67040％，效率为31.78％到目前为止报道的类似CIGS太阳能电池的值高得多。

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《Modern Physics Letters, B. Condensed Matter Physics, Statistical Physics, Applied Physics》 |2020年第4期|共11页
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正文语种 eng
中图分类应用物理学;
关键词
Thin film solar cells; CIGS; efficiency; TCAD Silvaco; optimization;

机译：薄膜太阳能电池;CIGS;效率;TCAD SILVACO;优化;

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1. High-efficiency CIGS solar cell by optimization of doping concentration, thickness and energy band gap [J] . Modern Physics Letters, B. Condensed Matter Physics, Statistical Physics, Applied Physics . 2020,第4期

机译：通过优化掺杂浓度，厚度和能带隙的高效CIGS太阳能电池
2. Band gap and thickness optimization for improvement of CIGS/CIGS tandem solar cells using Silvaco software [J] . Bouanani B., Joti A., Bouiadjra F. S. Bachir, Optik: Zeitschrift fur Licht- und Elektronenoptik: = Journal for Light-and Electronoptic . 2020,第期

机译：使用Silvaco软件改进CIGS / CIGS串联太阳能电池的带隙和厚度优化
3. High-efficiency CIGS solar cells with optimization of layers thickness and doping [J] . Heriche H., Rouabah Z., Bouarissa N. Optik: Zeitschrift fur Licht- und Elektronenoptik: = Journal for Light-and Electronoptic . 2016,第24期

机译：高效CIGS太阳能电池，具有优化的层厚度和掺杂
4. Consequences of Bandgap Shifts Resulting from Decreasing CIGS Thickness in CIGS Solar Cells [C] . V. Chandrasekaran, C. S. Ferekides, D. L. Morel . 2006

机译：CIGS太阳能电池厚度降低导致的带隙位移的后果
5. Development of wide-band gap indium gallium nitride solar cells for high-efficiency photovoltaics [D] . Jani, Omkar K. 2008

机译：用于高效光伏的宽带隙氮化铟镓太阳能电池的开发
6. An investigation into the effects of band gap and doping concentration on Cu(InGa)Se2 solar cell efficiency [O] . Md. Asaduzzaman, Mehedi Hasan, Ali Newaz Bahar -1

机译：带隙和掺杂浓度对Cu（InGa）Se2太阳能电池效率的影响研究
7. Front contact optimization of industrial scale CIGS solar cells for low solar concentration using 2D physical modeling [O] . Delgado-Sánchez, José M., López-González, Juan M., Orpella, Albert, 2017

机译：使用2D物理建模优化工业规模CIGS太阳能电池的前触点优化以实现低太阳能浓度
8. Numericl modeling of graded band gap CIGS solar cells [R] . Gray, J. L. , Lee, Y. J. 1994

机译：分级带隙CIGs太阳能电池的数值模拟

High-efficiency CIGS solar cell by optimization of doping concentration, thickness and energy band gap

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