Triplet Formation in Fullerene Multi-Adduct Blends for Organic Solar Cells and Its Influence on Device Performance

Clare Dyer-Smith; Luke X. Reynolds; Annalisa Bruno; Donal D. C. Bradley; Saif A. Haque; Jenny Nelson

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Triplet Formation in Fullerene Multi-Adduct Blends for Organic Solar Cells and Its Influence on Device Performance

机译：有机太阳能电池富勒烯多加合物共混物中的三重态形成及其对器件性能的影响

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In organic solar cells, high open circuit voltages may be obtained by choosing materials with a high offset between the donor highest occupied molecular orbital (HOMO) and acceptor lowest unoccupied molecular orbital (LUMO). However, increasing this energy offset can also lead to photophysical processes that compete with charge separation. In this paper the formation of triplet states is addressed in blends of polyfluorene polymers with a series of PCBM multi-adducts. Specifically, it is demonstrated that the formation of such triplets occurs when the offset energy between donor ionization potential and acceptor electron affinity is ～1.6 eV or greater. Spectroscopic measurements support a mechanism of resonance energy transfer for triplet formation, influenced by the energy levels of the materials, but also demonstrate that the competition between processes at the donor-acceptor interface is strongly influenced by morphology.

机译：在有机太阳能电池中，可以通过选择在施主最高占据分子轨道（HOMO）和受体最低未占据分子轨道（LUMO）之间具有高偏移的材料来获得高开路电压。但是，增加这种能量偏移也会导致光物理过程与电荷分离竞争。在本文中，解决了三氟态与聚芴聚合物与一系列PCBM多加合物共混的问题。具体地，证明了当供体电离电势与受体电子亲和力之间的偏移能量为〜1.6 eV或更大时，会形成这种三重态。光谱测量结果支持共振能量转移形成三重态的机制，受材料能级的影响，但也表明供体-受体界面处的过程之间的竞争受到形态的强烈影响。

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《Advanced Functional Materials》 |2010年第16期|P.2701-2708|共8页
作者
Clare Dyer-Smith; Luke X. Reynolds; Annalisa Bruno; Donal D. C. Bradley; Saif A. Haque; Jenny Nelson;
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Department of Physics Imperial College London Blackett Laboratory Prince Consort Road, London SW7 2AZ (UK) Department of Chemistry Imperial College London South Kensington Campus, London, SW7 2AZ (UK) Crantham Institute for Climate Change Imperial College London South Kensington Campus, London, SW7 2AZ (UK);

rnDepartment of Chemistry Imperial College London South Kensington Campus, London, SW7 2AZ (UK) Crantham Institute for Climate Change Imperial College London South Kensington Campus, London, SW7 2AZ (UK);

rnDepartment of Chemistry Imperial College London South Kensington Campus, London, SW7 2AZ (UK);

rnDepartment of Physics Imperial College London Blackett Laboratory Prince Consort Road, London SW7 2AZ (UK);

rnDepartment of Chemistry Imperial College London South Kensington Campus, London, SW7 2AZ (UK);

rnDepartment of Chemistry Imperial College London South Kensington Campus, London, SW7 2AZ (UK);

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2. Relating Recombination, Density of States, and Device Performance in an Efficient Polymer:Fullerene Organic Solar Cell Blend [J] . Steven A. Hawks, Florent Deledalle, Jizhong Yao, Advanced energy materials . 2013,第9期

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4. Charge generation in non-fullerene donor-acceptor blends for organic solar cells [C] . Nasim Zarrabi, Dani M. Stoltzfus, Paul L. Burn, European Optical Society annual meeting . 2016

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5. Insights into the Rational Design of Multi-Functional Fullerene Systems for Application in Blended Heterojunction Organic Solar Cells. [D] . Cowart, John S., Jr. 2014

机译：深入了解用于混合异质结有机太阳能电池的多功能富勒烯系统的合理设计。
6. Data on the detail information of influence of substrate temperature on the film morphology and photovoltaic performance of non-fullerene organic solar cells [O] . Jicheng Zhang, SuFei Xie, Zhen Lu, 2017

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7. Relating Recombination, Density of States, and Device Performance in an Efficient Polymer:Fullerene Organic Solar Cell Blend [O] . Steven A. Hawks, Florent Deledalle, Jizhong Yao, 2013

机译：在高效的聚合物中引用重组，密度和装置性能：富勒烯有机太阳能电池混合物

Triplet Formation in Fullerene Multi-Adduct Blends for Organic Solar Cells and Its Influence on Device Performance

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