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Experimental determination of the relationship between the elements of a back-to-back diode model for organic photovoltaic cells’ S-shaped I-V characteristics and cell structure

机译：实验确定有机光伏电池形I-V特性和细胞结构的背对二极管模型的元件关系

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Equivalent circuit models are becoming increasingly important for the development of large scale demonstrations of organic photovoltaics. The ‘S’ shaped profile is a common feature of OPV current-voltage (I-V) curves and consequently equivalent circuit models that replicate these features are urgently required. In this paper we prepare a case study based on ITO/PEDOT-PSS/P3HT:PCBM/Al devices whose I-V profiles transition from ‘S’ shape to ‘J’ shape with increasing aluminium thickness prepared using low evaporation rates. We show that the new back-to-back diode model (B2BDM) not only faithfully models these I-V profiles but, more importantly, that the specific circuit elements in the model directly correlate with the physical structures in OPV devices that determine the ‘S’ shaped character. On the basis of these observations, the physical interpretation of the B2BDM is discussed.

机译：相同的电路模型对于开发有机光伏的大规模示范的发展变得越来越重要。 'S形型材是OPV电流 - 电压（I-V）曲线的共同特征，因此迫切需要复制这些功能的等效电路模型。在本文中，我们准备了基于ITO / PETOT-PSS / P3HT：PCBM / AL器件的案例研究，其I-V型材从'型'形状转换为“J”形状，随着使用低蒸发速率制备的铝厚度。我们表明新的背对背二极管模型（B2BDM）不仅忠实地模拟了这些IV配置文件，而且更重要的是，模型中的特定电路元件与确定“S”的OPV设备中的物理结构直接相关。形状。在这些观察结果的基础上，讨论了B2BDM的物理解释。

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Elisa Sesa; Darmawati Darwis; Xiaojing Zhou; Warwick J. Belcher; Paul C. Dastoor;
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年度 2019
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1. Experimental determination of the relationship between the elements of a back-to-back diode model for organic photovoltaic cells’ S-shaped I-V characteristics and cell structure [J] . Elisa Sesa, Darmawati Darwis, Xiaojing Zhou, AIP Advances . 2019,第2期

机译：实验确定有机光伏电池形I-V特性和细胞结构的背对二极管模型的元件关系
2. Parameter extraction from S-shaped current-voltage characteristics in organic photocell with opposed two-diode model: Effects of ideality factors and series resistance [J] . Kazuya Tada Physica status solidi . 2015,第8期

机译：具有相反二二极管模型的有机光电池S形电流-电压特性的参数提取：理想因子和串联电阻的影响
3. Stress simulation of a foldable active matrix organic light-emitting diode panel with opening thin film transistor structures based on a finite element unit-cell model [J] . Liu Yuanke, Liao Dunming, Wu Di, Journal of the Society for Information Display . 2021,第4a6期

机译：基于有限元单元 - 单元模型的打开薄膜晶体管结构的可折叠有源矩阵有机发光二极管面板的应力模拟
4. An accurate organic solar cell parameters extraction approach based on the illuminated I-V characteristics for double diode modeling [C] . Maoucha A., Djeffal F., Arar D., Renewable Energies and Vehicular Technology (REVET), 2012 First International Conference on . 2012

机译：基于照明I-V特性的双二极管建模的精确有机太阳能电池参数提取方法
5. Nanostructured thin films for organic photovoltaic cells and organic light-emitting diodes. [D] . Zheng, Ying. 2009

机译：用于有机光伏电池和有机发光二极管的纳米结构薄膜。
6. Approximate Single-Diode Photovoltaic Model for Efficient I-V Characteristics Estimation [O] . Jieming Ma, Ka Lok Man, T. O. Ting, 2013

机译：高效I-V特性估计的近似单二极管光伏模型
7. Simple experimental test to distinguish extraction and injection barriers at the electrodes of (organic) solar cells with S-shaped current–voltage characteristics [O] . Tress, Wolfgang, Inganäs, Olle 2013

机译：简单的实验测试，以区分具有S形电流-电压特性的（有机）太阳能电池的电极上的萃取和注入壁垒

Experimental determination of the relationship between the elements of a back-to-back diode model for organic photovoltaic cells’ S-shaped I-V characteristics and cell structure

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