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首页> 外文期刊>Advanced energy materials >Solution Processed Polymer-Inorganic Semiconductor Solar Cells Employing Sb_2S_3 as a Light Harvesting and Electron Transporting Material
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Solution Processed Polymer-Inorganic Semiconductor Solar Cells Employing Sb_2S_3 as a Light Harvesting and Electron Transporting Material

机译:使用Sb_2S_3作为光收集和电子传输材料的溶液处理的聚合物-无机半导体太阳能电池

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摘要

Hybrid solar cells based upon organic-inorganic semiconductor heterojunctions are currently the subject of significant interest as they incorporate the attractive properties of both organic and inorganic materials, including the ability to tune both the electronic and structural properties over a wide range using solution-based fabrication methods. A configuration of particular promise is the hybrid inorganic nanocrystal-polymer bulk heterojunction solar cell. A typical device consists of a photoactive layer composed of a blend of inorganic nano-particles and a semiconducting polymer, which is sandwiched between two charge-collecting electrodes. The operation of such a system is based upon a photoinduced charge separation reaction at the inorganic-organic semiconductor heterojunction, followed by charge carrier transport and collection at the device electrodes. To date, a variety of inorganic semiconductors have been used in solution processed polymer solar cells including metal oxides, sulfides and selenides.
机译:当前,基于有机-无机半导体异质结的混合太阳能电池具有广泛的吸引力,因为它们融合了有机和无机材料的吸引力,包括使用基于溶液的制造技术可以在很宽的范围内调节电子和结构特性的能力方法。特别有希望的配置是杂化无机纳米晶体-聚合物本体异质结太阳能电池。典型的设备由光敏层组成,该光敏层由无机纳米粒子和半导体聚合物的混合物组成,夹在两个电荷收集电极之间。这种系统的操作基于在无机-有机半导体异质结处的光诱导电荷分离反应,然后在器件电极处进行电荷载流子的传输和收集。迄今为止,在溶液处理的聚合物太阳能电池中已经使用了多种无机半导体,包括金属氧化物,硫化物和硒化物。

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  • 来源
    《Advanced energy materials》 |2013年第8期|986-990|共5页
  • 作者

    Neha Bansal; Flannan T. F. OMahony; Thierry Lutz; Saif A. Haque;

  • 作者单位

    Centre for Plastic Electronics Department of Chemistry Imperial College London South Kensington Campus SW7 2AZ, UK;

    Centre for Plastic Electronics Department of Chemistry Imperial College London South Kensington Campus SW7 2AZ, UK;

    Centre for Plastic Electronics Department of Chemistry Imperial College London South Kensington Campus SW7 2AZ, UK;

    Centre for Plastic Electronics Department of Chemistry Imperial College London South Kensington Campus SW7 2AZ, UK;

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