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Role of Charged Defects on Organic Solar Cell Performance: Prospect of Heterojunction-Free Device Design

机译：带电缺陷对有机太阳能电池性能的作用：异质结装置设计的前景

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Heterojunction-free organic photovoltaic (HJ-free OPV) devices promise to double the efficiency of bulk heterojunction cells, mainly by improving the open circuit voltage. Unfortunately, photocurrent of HJ-free OPV cell is poor, which is generally attributed to incomplete exciton dissociation. In this paper, we show that it is the defect induced electric field screening, not exciton dissociation, which lowers charge collection and degrades the photocurrent. The hypothesis is confirmed by careful device simulation and impedance spectroscopy. The defect-limited theory of photocurrent consistently interprets the voltage dependent quantum efficiency and intensity dependent power conversion efficiency widely observed for HJ-free OPVs. This work suggests bright prospect of HJ-free OPV design, provided the material defects are minimized.

机译：异结合的有机光伏（HJ-FALE OPV）器件承诺以提高开路电压的散装异质结细胞的效率。遗憾的是，无HJ的OPV细胞的光电流差，这通常归因于不完全的激子解离。在本文中，我们表明它是缺陷感应电场筛选，而不是激子解离，其降低电荷收集并降低光电流。通过仔细的装置模拟和阻抗光谱来确认假设。光电流的缺陷有限理论一致地解释为HJ-APVS广泛观察到电压相关量子效率和强度相关的功率转换效率。这项工作表明，无铅OPV设计的明亮前景，只要材料缺陷最小化。

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《IEEE Photovoltaic Specialists Conference》|2013年||共4页
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作者
Biswajit Ray; Muhammad A. Alam;
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原文格式 PDF
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中图分类 TN2-53;
关键词
Organic Photovoltaic Cells; Exciton; Heterojunction; Charged defects;

机译：有机光伏电池;Exciton;异质结;带电缺陷;

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2. Investigate the role of the active layers' structures and morphology in the performance of the organic solar cell devices [J] . Rahimi Ronak, Roberts Alex, Narang V., Applied Physics Letters . 2013,第7期

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3. Investigate the role of the active layers' structures and morphology in the performance of the organic solar cell devices [J] . Ronak Rahimi, Alex Roberts, V.Narang, Applied Physics Letters . 2013,第7期

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4. Role of charged defects on organic solar cell performance: Prospect of heterojunction-free device design [C] . Ray B., Alam M.A. IEEE Photovoltaic Specialists Conference . 2013

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Role of Charged Defects on Organic Solar Cell Performance: Prospect of Heterojunction-Free Device Design

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