Influence of Meso and Nanoscale Structure on the Properties of Highly Effi cient Small Molecule Solar Cells

Moench Tobias; Friederich Pascal; Holzmueller Felix; Rutkowski Bogdan; Benduhn Johannes; Strunk Timo; Koerner Christian; Vandewal Koen; Czyrska-Filemonowicz Aleksandra; Wenzel Wolfgang; Leo Karl

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Influence of Meso and Nanoscale Structure on the Properties of Highly Effi cient Small Molecule Solar Cells

机译：中索和纳米级结构对高效小分子太阳能电池性能的影响

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The nanoscale morphology of the bulk heterojunction absorber layer in an organic solar cell (OSC) is of key importance for its efficiency. The morphology of high performance vacuum-processed, small molecule OSCs based on oligothiophene derivatives (DCV5T-Me) blended with C-60 on various length scales is studied. The analytical electron microscopic techniques such as scanning transmission electron microscopy, energy dispersive X-ray spectroscopy, highly sensitive external quantum efficiency measurements, and meso and nanoscale simulations are employed. Unique insights into the relation between processing, morphology, and efficiency of the final devices are obtained. It is shown that the connectivity of the oligothiophene-C-60 network is independent of the material domain size. The decisive quantity controlling the internal quantum efficiency is the energetic disorder induced by material mixing, strongly limiting charge and exciton transport in the OSCs.

机译：有机太阳能电池（OSC）中散装异质结吸收层的纳米级形态具有重要的重要性。研究了高性能真空处理，基于寡噻吩衍生物（DCV5T-ME）的小分子OSC在各种长度尺度上与C-60混合的小分子OSC。采用分析电子显微镜，扫描透射电子显微镜，能量分散X射线光谱，高度敏感的外部量子效率测量和MESO和纳米级模拟等分析电子显微镜技术。获得了对处理，形态和最终器件效率之间关系的独特见解。结果表明，低噻吩-C-60网络的连接性与材料畴尺寸无关。控制内部量子效率的决定性量是通过物质混合，强烈限制的电荷和ESCS在OSC中的激增诱导的能量疾病。

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来源
《Advanced energy materials》 |2016年第4期|1501280.1-1501280.10|共10页
作者
Moench Tobias; Friederich Pascal; Holzmueller Felix; Rutkowski Bogdan; Benduhn Johannes; Strunk Timo; Koerner Christian; Vandewal Koen; Czyrska-Filemonowicz Aleksandra; Wenzel Wolfgang; Leo Karl;
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作者单位

Tech Univ Dresden Inst Angew Photophys George Bahr Str 1 D-01062 Dresden Germany;

Karlsruher Inst Technol Inst Nanotechnol Hermann von Helmholtz Pl 1 D-76344 Eggenstein Leopoldshafen Germany;

Tech Univ Dresden Inst Angew Photophys George Bahr Str 1 D-01062 Dresden Germany;

AGH Univ Sci & Technol Int Ctr Electron Microscopy Mat Sci Al Mickiewicza 30 PL-30059 Krakow Poland;

Tech Univ Dresden Inst Angew Photophys George Bahr Str 1 D-01062 Dresden Germany;

Nanomatch GmbH Hermann von Helmholtz Pl 1 D-76344 Eggenstein Leopoldshafen Germany;

Tech Univ Dresden Inst Angew Photophys George Bahr Str 1 D-01062 Dresden Germany;

Tech Univ Dresden Inst Angew Photophys George Bahr Str 1 D-01062 Dresden Germany;

AGH Univ Sci & Technol Int Ctr Electron Microscopy Mat Sci Al Mickiewicza 30 PL-30059 Krakow Poland;

Karlsruher Inst Technol Inst Nanotechnol Hermann von Helmholtz Pl 1 D-76344 Eggenstein Leopoldshafen Germany;

Tech Univ Dresden Inst Angew Photophys George Bahr Str 1 D-01062 Dresden Germany;

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正文语种 eng
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关键词
charge transfer state; nanoscale structures; organic solar cells; simulations; small molecule;

机译：电荷转移状态;纳米级结构;有机太阳能电池;模拟;小分子;

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Influence of Meso and Nanoscale Structure on the Properties of Highly Effi cient Small Molecule Solar Cells

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