Using the Stark effect to understand charge generation in organic solar cells

机译：使用缺点效应来了解有机太阳能电池中的电荷产生

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We have used a femtosecond-resolved spectroscopic technique based on the Stark effect (electromodulated differential absorption) in order to investigate free charge generation and charge drift in solar cell devices of neat conjugated polymer pBTTT and in its 1:1 (by weight) blend with PCBM. In the latter, the fullerene molecules intercalate between the polymer side-chains, yielding a co-crystal phase. Our results show that free charge generation in both materials is ultrafast and strongly dependent on the applied reverse bias. Charge drift to the electrodes (under strong reverse bias) occurs with comparable dynamics on the 1.2 ns time scale for neat pBTTT and the blend, and is probably dominated by hole transport within/between polymer chains.

机译：我们使用了一种基于STARK效应（电电常规差动吸收）的飞秒分辨的光谱技术，以便在整洁的共轭聚合物PBTTT的太阳能电池器件和其1：1（重量）混合物中进行自由电荷产生和电荷漂移PCBM。在后者中，富勒烯分子在聚合物侧链之间嵌入，得到共晶相。我们的结果表明，两种材料中的自由充电都是超快，非常依赖于所施加的反向偏压。在纯PBTTT和混合物的1.2NS时间尺度上具有比较动态的电极漂移（在强逆偏压下）发生的电荷漂移，并且可能在聚合物链内/之间的空穴传输主导。

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《Conference on physical chemistry of interfaces and nanomaterials》|2015年||共6页
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作者
Jelissa De Jonghe-Risse; Martina Causa; Ester Buchaca-Domingo; Martin Heeney; Jacques-E. Moser; Natalie Stingelin; Natalie Banerji;
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中图分类特种结构材料;
关键词
Organic solar cells; charge generation; charge transport; ultrafast spectroscopy; Stark effect; electromodulated differential absorption;

机译：有机太阳能电池;电荷产生;电荷运输;超快光谱;Stark效果;电常规差动吸收;

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1. Local Excitation/Charge-Transfer Hybridization Simultaneously Promotes Charge Generation and Reduces Nonradiative Voltage Loss in Nonfullerene Organic Solar Cells [J] . Han Guangchao, Yi Yuanping Journal of physical chemistry letters . 2019,第11期

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2. Exciton Generation/Dissociation/Charge-Transfer Enhancement in Inorganic/Organic Hybrid Solar Cells by Robust Single Nanocrystalline LnP_xO_y (Ln = Eu, Y) Doping [J] . Xiao Jin, Weifu Sun, Zihan Chen ACS applied materials & interfaces . 2014,第11期

机译：鲁棒的单纳米晶LnP_xO_y（Ln = Eu，Y）掺杂在无机/有机混合太阳能电池中激子产生/解离/电荷转移增强
3. Unraveling the Temperature Dependence of Exciton Dissociation and Free Charge Generation in Nonfullerene Organic Solar Cells [J] . Chao Ma, Christopher C.S.Chan, Xinhui Zou, Solar RRL . 2021,第4期

机译：解开激子解离和自由电荷产生的温度依赖性在非氟联有机太阳能电池中的依赖性
4. Using the Stark effect to understand charge generation in organic solar cells [C] . Jelissa De Jonghe-Risse, Martina Causa, Ester Buchaca-Domingo, Conference on physical chemistry of interfaces and nanomaterials . 2015

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5. Impact of Solar Cell Processing Conditions on Active Layer Morphology and Charge Generation Dynamics in Organic Solar Cells [D] . Lou, Sylvia Jen-Ming. 2018

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7. Ternary Organic Solar Cells: Performance Optimization of Parallel‐Like Ternary Organic Solar Cells through Simultaneous Improvement in Charge Generation and Transport (Adv. Funct. Mater. 14/2019) [O] . Wisnu Tantyo Hadmojo, Febrian Tri Adhi Wibowo, Wooseop Lee, 2019

机译：三元有机太阳能电池：通过同时改善电荷发电和运输（ADV。Funct。Matter。14/2019）通过同时改进平行的三元有机太阳能电池性能优化。

Using the Stark effect to understand charge generation in organic solar cells

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