Design and performance evaluation of all-inorganic AgTaS3 perovskite solar cells

IF 3.2 Q2 CHEMISTRY, PHYSICAL Energy advances Pub Date : 2024-05-22 DOI:10.1039/D4YA00210E
Tanvir Ahmed, Md. Choyon Islam, Md. Alamin Hossain Pappu, Md. Islahur Rahman Ebon, Sheikh Noman Shiddique, Mainul Hossain and Jaker Hossain
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Abstract

Narrow bandgap AgTaS3 perovskite can offer highly efficient thin film solar cells (SCs) and become Si counterparts that are leading in the market. Herein, we study the response of a n-CdS/p-AgTaS3/p+-Al0.8Ga0.2Sb device according to the variation of thickness, doping concentration, and defect densities in each layer using a solar cell capacitance simulator (SCAPS-1D). The optimized cell shows a VOC of 0.78 V, PCE of 27.89% accompanied by a JSC of 46.37 mA cm−2, and a fill factor of 77.06%, paving the way for novel double heterojunction perovskite photovoltaic (PV) cells with remarkable performance.

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全无机 AgTaS3 Perovskite 太阳能电池的设计与性能评估
窄带隙 AgTaS3 包晶可以提供高效薄膜太阳能电池(SC),并成为市场上领先的硅太阳能电池。在此,我们利用太阳能电池电容模拟器(SCAPS-1D)研究了 n-CdS/p-AgTaS3/p+-Al0.8Ga0.2Sb 器件在厚度、掺杂浓度和各层缺陷密度变化时的响应。优化后的电池显示出 0.78 V 的 VOC、27.89% 的 PCE 和 46.37 mA/cm2 的 JSC,以及 77.06% 的填充因子,为性能卓越的新型双异质结包晶光伏(PV)电池铺平了道路。
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Correction: Steady states and kinetic modelling of the acid-catalysed ethanolysis of glucose, cellulose, and corn cob to ethyl levulinate. Back cover Fabrication methods, pseudocapacitance characteristics, and integration of conjugated conducting polymers in electrochemical energy storage devices Inside back cover Back cover
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