Performance Enhancement of Luminescent Solar Concentrator by using Mixing Fluorescent Colors and Nanoparticles

Journal of Kufa - Physics Pub Date : 2022-08-12 DOI:10.31257/2018/jkp/2022/140106

Ahmed A. Hussein, Adnan F. Hassan

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Abstract

Liquid zinc acetate nanoparticles were added to a fluorescent organic dye (fluorescein sodium) to prepare three concentrations (2 × 10-5, 7×10-5, 1×10-4) moI/L, and the absorbance of the dye was measured before and after adding Liquid nanomaterial by using two devices (SCINCO Mega-2100 UV/visible Spectrophotometer.) as well as measuring the flux of the dye before and after adding zinc acetate nanoparticles using the (Spectrofluorometer F96 PRO). The Stoke displacement (Δη), the radiative age (τfm), the fluorescence lifetime (τf), and the quantitative efficiency (Qfm) were calculated. Absorption and fluorescence curves were drawn using the Excel program. The MATLAB program was also used to measure the area under the absorption and fluorescence spectra curves. It was found that the fluorescence intensity of fluorescein sodium dye has increased compared to the intensity of fluorescence before adding the nanomaterial and thus increasing the quantitative efficiency, which in turn helps in improving the performance of the photovoltaic concentrator, resulting in an improvement in the efficiency of the solar cell.

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荧光色与纳米粒子混合增强发光太阳能聚光器的性能

将液体醋酸锌纳米颗粒加入荧光有机染料(荧光素钠)中，制得3种浓度(2 ×10-5、7×10-5、1×10-4) moI/L，分别用SCINCO Mega-2100紫外/可见分光光度计和F96 PRO荧光分光光度计分别测定加入液体纳米材料前后染料的吸光度和加入醋酸锌纳米颗粒前后染料的通量。计算了斯托克位移(Δη)、辐射年龄(τfm)、荧光寿命(τf)和定量效率(Qfm)。利用Excel程序绘制吸收曲线和荧光曲线。并利用MATLAB程序测量了吸收光谱曲线下的面积和荧光光谱曲线。研究发现，荧光素钠染料的荧光强度比加入纳米材料之前的荧光强度有所提高，从而提高了定量效率，从而有助于提高光伏聚光器的性能，从而提高太阳能电池的效率。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Kufa - Physics

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