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P3HT:PCBM活性层中的金纳米颗粒:新型有机太阳能电池设计的模拟
Gold nanoparticles in P3HT: PCBM active layer: A simulation of new organic solar cell designs
语言:
中文摘要
摘要 本研究探讨了将金纳米颗粒(Au NPs)掺入有机太阳能电池(OSCs)中聚(3-己基噻吩)(P3HT)与[6,6]-苯基-C61-丁酸甲酯(PCBM)活性层的影响。采用GPVDM仿真软件分析了常规和倒置器件结构下的功率转换效率(PCE)及其他光伏特性,包括开路电压(Voc)、短路电流密度(Jsc)和填充因子(FF)。在活性层中添加5%浓度的Au NPs后,器件性能显著提升,在特定缓冲层结构下最大PCE达到6.46%,而未添加Au NPs的器件PCE为4.65%。同时研究了不同空穴阻挡层(HBL)材料(如BPhen、ZnO和TiOx)的影响,结果表明这些材料可有效改善器件性能,其中BPhen在所测试材料中实现了最高的能量转换效率。
English Abstract
Abstract This study investigates the effect of incorporating gold nanoparticles (Au NPs) into the poly(3-hexylthiophene) (P3HT) and [6,6]-phenyl-C61-butyric acid methyl ester (PCBM) active layer of organic solar cells (OSCs). GPVDM simulation software was used to analyze the power conversion efficiency (PCE) along with other photovoltaic properties, including open-circuit voltage (Voc), short-circuit current density (Jsc), and fill factor (FF), in both conventional and inverted architectures. The addition of a 5% concentration of Au NPs led to a significant increase in PCE, with a maximum value of 6.46% in specific buffer layer configurations, compared to 4.65% in devices without Au NPs. The effect of varying hole blocking layer (HBL) materials, such as BPhen, ZnO, and TiOx, was also examined, revealing improvements in device performance, with BPhen achieving the highest efficiency among the tested materials.
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SunView 深度解读
该有机太阳能电池效率提升研究对阳光电源光伏系统具有前瞻参考价值。金纳米颗粒掺杂使PCE从4.65%提升至6.46%的技术路径,可启发SG系列逆变器在新型光伏组件适配方面的MPPT算法优化。虽然当前有机电池效率仍低于晶硅组件,但其柔性、轻量化特性适合BIPV场景,可为iSolarCloud平台拓展分布式新型组件监控模块。缓冲层材料优化思路亦可借鉴至功率器件界面工程,助力SiC/GaN器件性能提升。