混合钙钛矿基太阳能电池在不同电子输运材料和光强下的电学和光学模拟

IF 0.6 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY

Annales De Chimie-science Des Materiaux Pub Date : 2020-08-20 DOI:10.18280/acsm.440304

Abdel-baset H. Mekky

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引用次数: 2

摘要

近年来，钙钛矿基太阳能电池知识一直是一个非常有吸引力的研究领域。是生产低价格、高效率、可持续发展的光伏电池的一种智能、合适的材料。在本研究中进行了基于钙钛矿的太阳能电池建模。利用GPVDM模型研究了室温下不同电子传输材料ETM层和光强下混合钙钛矿太阳能电池CH3NH3PbI3的电学和光学模拟。为了了解ETM层对钙钛矿太阳能电池性能的影响，研究了各种电子传输材料，包括(ETM = PCBM, SiO2, ZnO, TiO2, ZnSe)。考虑了光强对太阳能电池参数(短路光电流密度、开路电压、填充系数、转换效率百分比和最大功率)的影响。并对建筑正、倒结构装置的特殊效果进行了比较。该结果将为生产更高效率的钙钛矿基太阳能电池提供必要的标准和可实现的方向。

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Electrical and Optical Simulation of Hybrid Perovskite-Based Solar Cell at Various Electron Transport Materials and Light Intensity

Received: 26 February 2020 Accepted: 19 March 2020 Perovskite-based solar cell knowledge has been a very attractive field of investigation in late years. It is a smart and appropriate material for the production of low prices, great efficiency, and sustainable photovoltaic cell. Perovskite-based solar cell modeling was performed in this study. Electrical and Optical Simulation of Hybrid Perovskite Solar Cell CH3NH3PbI3 was considered at different electron transport material ETM layers and light intensity by using the GPVDM Model at room temperature. To understand the effect of ETM layers on the performance of perovskite solar cells, various electron transport materials, including (ETMs = PCBM, SiO2, ZnO, TiO2, ZnSe). The role of light intensity has been considered on the solar cell parameters (short-circuit photocurrent density, open-circuit voltage, fill factor, percent conversion efficiency, and maximum power). Also, the comparison between the special effects of regular and inverted structure device of architecture is examined. The results will contribute imperative standards and achievable directions for the production of higher efficiency Perovskite-based solar cells.

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来源期刊

Annales De Chimie-science Des Materiaux 工程技术-材料科学：综合

CiteScore

1.70

自引率

25.00%

发文量

审稿时长

>12 weeks

期刊介绍： The ACSM is concerning the cutting-edge innovations in solid material science. The journal covers a broad spectrum of scientific fields, ranging all the way from metallurgy, semiconductors, solid mineral compounds, organic macromolecular compounds to composite materials. The editorial board encourages the submission of original papers that deal with all aspects of material science, including but not limited to synthesis and processing, property characterization, reactivity and reaction kinetics, evolution in service, and recycling. The papers should provide new insights into solid materials and make a significant original contribution to knowledge.