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光伏发电技术
★ 5.0
天然染料敏化太阳能电池中电子注入与染料再生的驱动力:对光伏性能的深入理解
Driving forces of injection and regeneration in natural dye-sensitized solar cells: Insights into photovoltaic performance
| 作者 | M.E.Yelkovan · M.Erdogdu · Yusuf Erdogdu · Abdullah Yildiz |
| 期刊 | Solar Energy |
| 出版日期 | 2025年1月 |
| 卷/期 | 第 295 卷 |
| 技术分类 | 光伏发电技术 |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | A comprehensive investigation of novel natural dyes as sensitizers for [DSSCs](https://www.sciencedirect.com/topics/materials-science/dye-sensitized-solar-cell "Learn more about DSSCs from ScienceDirect's AI-generated Topic Pages") was carried out. |
语言:
中文摘要
摘要 实用化的制备工艺、低成本以及环境友好的能量收集方式是天然染料敏化太阳能电池最显著的特征。然而,尽管使用天然染料降低了生产成本,但也导致了严重的光伏性能损失,这些损失与电子注入和染料再生背后驱动力的大小密切相关。因此,对这些关键驱动力认识的缺乏限制了染料敏化太阳能电池(DSSCs)的发展。为了克服这些障碍并揭示DSSCs的性能机制,本文系统地研究了从 Hyoscyamus reticulatus(HR)和 Mahonia aquifolium(MA)中提取的染料所制备的DSSCs的性质。估算得到HR和MA样品中电子注入(染料再生)过程背后的驱动力分别为0.831 V(0.092 V)和0.823 V(0.105 V)。这些数值被进一步与光伏参数进行了关联分析。我们发现,电子注入所需的驱动力应较大,而染料再生则需要较小的驱动力。在标准AM 1.5G模拟太阳光照条件下,基于HR的器件实现了1.20%的光电转换效率(填充因子FF = 0.67;短路电流密度Jsc = 2.66 mA/cm²;开路电压Voc = 0.67 V),而基于MA的器件效率为0.22%(FF = 0.37;Jsc = 1.34 mA/cm²;Voc = 0.45 V)。
English Abstract
Abstract Practical fabrication, low costs, and environment-friendly energy harvesting are the most significant features of solar cells sensitized by natural dyes. However, the employment of natural dye reduces the cost of production while causing severe photovoltaic losses associated with magnitude of underlying forces behind electron injection and dye regeneration. Therefore, lack of knowledge based on these forces have limited the development of DSSCs. To overcome these obstacles for unveiling the performance DSSCs, herein, properties of DSSCs obtained from Hyoscyamus reticulatus ( HR ), and Mahonia aquifolium ( MA ) were comprehensively investigated. The magnitude of underlying forces behind electron injection (dye regeneration) was estimated to be 0.831 V (0.092 V) and 0.823 V (0.105 V) for HR and MA , respectively. These values were correlated with photovoltaic parameters. We noticed that driving force should be higher for electron injection while it should be lower for dye regeneration. Under standard AM 1.5G simulated solar radiation, HR based device shows a solar to electricity efficiency of 1.20 % (Fill factor of FF = 0.67; short-circuit current density of J sc = 2.66 mA/cm 2 ; open circuit voltage of V oc = 0.67 V) while MA based device shows an efficiency of 0.22 % ( FF = 0.37; J sc = 1.34 mA/cm 2 ; V oc = 0.45 V).
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SunView 深度解读
该天然染料敏化太阳能电池研究揭示了电子注入与染料再生驱动力对光伏性能的关键影响机制。对阳光电源SG系列光伏逆变器的MPPT优化算法具有启发意义:通过精确建模电池内部电子传输驱动力,可优化最大功率点追踪策略,提升低效率电池组件的能量采集效率。研究中的驱动力量化方法可应用于iSolarCloud平台的光伏阵列性能诊断模块,实现对组件衰减机理的深度分析,为预测性维护提供理论支撑,延长光伏电站全生命周期效益。