Influence of organic active layer morphology on plasmonic light-trapping

机译：有机活性层形态对等离激元光阱的影响

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Here, we show that the morphology of organic bulk-heterojuction (BJH) thin films strongly influences whether plasmonic modes supported by an electrode are absorbed or outcoupled (leaked) from the organic thin films. Using optical dark-field scattering, full-field electromagnetic modelling and grazing-incidence, wide-angle X-ray scattering, we find that more crystalline organic active layers, such as P3HT:PCBM trap surface plasmons while more amorphous organic thin films such as PTB7:PC70BM and PCDTBT:PC70BM facilitate leakage of surface plasmon polaritons. This is an important finding because it indicates that plasmonic light trapping can be improved in thin-film organic active layers using more crystalline active layers.

机译：在这里，我们表明有机本体-异质结（BJH）薄膜的形态强烈影响电极支撑的等离激元模式是否从有机薄膜吸收或耦合（泄漏）。使用光学暗场散射，全场电磁建模和掠入射，广角X射线散射，我们发现更多的结晶有机活性层（例如P3HT：PCBM）捕获表面等离子体，而更多的非晶有机薄膜（例如） PTB7：PC70BM和PCDTBT：PC70BM有助于表面等离激元极化子的泄漏。这是一个重要发现，因为它表明使用更多结晶活性层可以改善薄膜有机活性层中的等离子体捕获。

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《IEEE Photovoltaic Specialists Conference》|2016年|1072-1074|共3页
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Deirdre M. OCarroll; Christopher E. Petoukhoff;
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Plasmons; Coatings; Plastics; Polymers; Films; Time-domain analysis; Scattering;

机译：等离子;涂层;塑料;聚合物;薄膜;时域分析;散射;
入库时间 2022-08-26 13:47:27

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3. Plasmonic absorption enhancement in organic solar cells with thin active layers [J] . Honghui Shen, Peter Bienstman, Bjorn Maes Journal of Applied Physics . 2009,第7期

机译：具有薄有源层的有机太阳能电池中的等离子体吸收增强
4. Influence of Organic Active Layer Morphology on Plasmonic Light-Trapping [C] . Deirdre M. OCarroll, Christopher E. Petoukhoff IEEE Photovoltaic Specialist Conference . 2017

机译：有机活性层形态对等离子体光捕获的影响
5. Synthesis and functionalization of gold nanorods for probing plasmonic enhancement mechanisms in organic photovoltaic active layers. [D] . Wadams, Robert Christopher. 2014

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Influence of organic active layer morphology on plasmonic light-trapping

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