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Light harvester band gap engineeringudin excitonic solar cells: A case study on semiconducting quantum dots sensitized rainbow solar cells

机译：光收集器带隙工程 ud在激子太阳能电池中的应用：以半导体量子点敏化彩虹太阳能电池为例

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A systematic study on the fabrication of quantum dots sensitized solar cells (QDSSCs) exploiting hybrid networks of semiconducting light harvesters is presented, which shows how the engineering of band gaps of the device components by a very simple technique allows improving the solar energy conversion per- formances. Panchromatic devices are fabricated and tested, and correspondent functional parameters ana- lyzed in order to highlight both advantages and drawbacks of the most common (CdS, CdSe, PbS) quantum dots applied for light collection in QDSSCs. Judicious engineering of the light harvester layer is demonstrated as a simple and powerful strategy for boosting device performances, through the management of light collec- tion in a rather broad range of solar spectrum and photogenerated charges injection and collection.

机译：提出了利用半导体光收集器的混合网络制造量子点敏化太阳能电池（QDSSC）的系统研究，该研究显示了如何通过非常简单的技术对器件组件的带隙进行工程设计，从而可以提高太阳能转换效率。表现。全色器件经过制造和测试，并分析了相应的功能参数，以突出显示QDSSC中用于光收集的最常见（CdS，CdSe，PbS）量子点的优缺点。通过在相当广泛的太阳光谱范围内对光聚集进行管理以及光生电荷的注入和收集，证明了对光收集器层进行明智的工程设计是提高设备性能的简单有效的策略。

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Concina I.; Selopal G. S.; Milan R.; Sberveglieri G.; Vomiero A.;
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年度 2014
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正文语种 eng
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1. Light harvester band gap engineering in excitonic solar cells: A case study on semiconducting quantum dots sensitized rainbow solar cells [J] . Isabella Concina, Gurpreet S. Selopal, Riccardo Milan, Pure and Applied Chemistry . 2014,第5期

机译：激子太阳能电池的光收集器带隙工程：以半导体量子点敏化彩虹太阳能电池为例
2. Nanostructured zinc titanate wide band gap semiconductor as a photoelectrode material for quantum dot sensitized solar cells [J] . Sahu Anurag, Chaurashiya Rajneesh, Hiremath Kirankumar, Solar Energy . 2018,第MARa期

机译：纳米结构钛酸锌宽带隙半导体作为量子点敏化太阳能电池的光电极材料
3. Combined post-modification of iodide ligands and wide band gap ZnS in quantum dot sensitized solar cells [J] . Guangda Niu, Nan Li, Liduo Wang Physical chemistry chemical physics: PCCP . 2014,第34期

机译：量子点敏化太阳能电池中碘配体和宽带隙ZnS的组合后修饰
4. Study of excitonic carrier dynamics in quantum dot solar cells by numerical simulations [C] . Ariel Cedola, Marcelo Cappelletti, Eitel L. Peltzer y Blancá 2016 Argentine Conference of Micro-Nanoelectronics, Technology and Applications . 2016

机译：数值模拟研究量子点太阳能电池中激子载流子动力学
5. Dye- and quantum dot-sensitized solar cells based on nanostructured wide-bandgap semiconductors via an integrated experimental and modeling study. [D] . Xin, Xukai. 2012

机译：通过综合实验和模型研究，基于纳米结构宽带隙半导体的染料和量子点敏化太阳能电池。
6. TiO2 Passivation Layer on ZnO Hollow Microspheres for Quantum Dots Sensitized Solar Cells with Improved Light Harvesting and Electron Collection [O] . Zhen Li, Libo Yu, Hao Wang, 2020

机译：ZnO空心微球上的TiO2钝化层用于量子点敏化的太阳能电池具有改进的光收集和电子收集能力
7. Dye- and quantum dot-sensitized solar cells based on nanostructured wide-bandgap semiconductors via an integrated experimental and modeling study [O] . Xin, Xukai 2012

机译：通过集成实验和模型研究，基于纳米结构宽带隙半导体的染料和量子点敏化太阳能电池

Light harvester band gap engineeringudin excitonic solar cells: A case study on semiconducting quantum dots sensitized rainbow solar cells

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