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首页> 外文期刊>Journal of Applied Polymer Science >Plasmonic organic bulk-heterojunction solar cells based on hydrophobic gold nanorod insertion into active layers
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Plasmonic organic bulk-heterojunction solar cells based on hydrophobic gold nanorod insertion into active layers

机译:基于疏水性金纳米棒插入活性层的等离子体有机散装 - 异质结太阳能电池

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In this work, we fabricated plasmonic organic bulk-heterojunction solar cells by inserting hydrophobic gold nanorods (GNRs) into the active layers. Power conversion efficiency was improved from 7.43% to 8.22% because the plasmonic effect of GNRs improved the light harvesting efficiency. Maximum exciton generation rate was increased from 1.35 x 10(-26) to 1.51 x 10(-26) m(-3) s(-1), and the electron mobility was also increased from 8.6 x 10(-5) to 1.53 x 10(-4) cm(-2) V-1 s(-1). As a result, the short circuit current density was improved from 15.5 to 16.7 mA cm(-2) the dominant reason for performance enhancement. The open circuit voltage and fill factor were improved simultaneously. The plasmonic device showed a highest PCE of 8.43%, indicating that doping GNRs into active layers is a simple and effective way to fabricate high-performance organic solar cells. (C) 2017 Wiley Periodicals, Inc.
机译:在这项工作中,我们通过将疏水金纳米棒(GNRS)插入活性层来制造等离子体有机体杂交太阳能电池。 功率转换效率从7.43%提高到8.22%,因为GNR的等离子体效应改善了光收获效率。 最大激子生成率从1.35×10(-26)增加到1.51×10(-26)m(-3)s(-1),电子迁移率也从8.6×10(-5)增加到1.53 x 10(-4)cm(-2)v-1 s(-1)。 结果,短路电流密度从15.5到16.7 mA cm(-2)提高了性能增强的显性原因。 打开电路电压和填充因子同时提高。 等离子体器件显示出最高PCE为8.43%,表明将GNR掺杂到活性层是制造高性能有机太阳能电池的简单有效的方法。 (c)2017 Wiley期刊,Inc。

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