Design and Development of Novel Linker for PbS Quantum Dots/TiO2 Mesoscopic Solar cell

Lioz Etgar; JinHyung Park; Claudia Barolo

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Design and Development of Novel Linker for PbS Quantum Dots/TiO2 Mesoscopic Solar cell

机译：PbS量子点/ TiO2介观太阳能电池新型接头的设计与开发

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A novel bifunctional linker molecule, bis(4-mercaptophenyl) phosphinic acid, is designed to be used in a QDs solar cells. The linker anchors to TiO2 mesoporous film through the phosphinic acid functional group and to the PbS QDs through the two thiol groups. The way of attachment of this new linker molecule in a photovoltaic PbS QPs/TiO2 mesoporous device was studied by FTIR measurements. The photovoltaic performance of this new linker in a heterojunction PbS QDs solar cell show high V_(oc) relative to QDs based solar cells, which will allow to receive high power conversion efficiency using this novel designed linker. This novel bifunctional linker molecule should pave the way for enhancing binding strength, and efficiency of QDs solar cells compared to the state-of-the-art linkers.

机译：一种新型的双功能连接分子双（4-巯基苯基）次膦酸被设计用于量子点太阳能电池。接头通过次膦酸官能团固定在TiO2介孔膜上，并通过两个巯基固定在PbS QD上。通过FTIR测量研究了这种新的连接分子在光伏PbS QPs / TiO2介孔器件中的附着方式。相对于基于QDs的太阳能电池，此新型连接器在异质结PbS QDs太阳能电池中的光伏性能显示出较高的V_（oc），这将允许使用此新颖设计的链接器获得高功率转换效率。与最新的接头相比，这种新型的双功能接头分子应为增强QDs太阳能电池的结合强度和效率铺平道路。

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《ACS applied materials & interfaces》 |2011年第9期|共4页
作者
Lioz Etgar; JinHyung Park; Claudia Barolo;
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正文语种 eng
中图分类化学工业;
关键词
quantum dots; bifunctional molecular linker; heterojunction solar cells; phosphinic acid; PbS; mesoporous TiO2;

机译：量子点;双功能分子接头;异质结太阳能电池;次膦酸;PbS;介孔TiO2;
入库时间 2022-08-18 10:00:53

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专利

1. Design and Development of Novel Linker for PbS Quantum Dots/TiO2 Mesoscopic Solar cell [J] . Lioz Etgar, JinHyung Park, Claudia Barolo ACS applied materials & interfaces . 2011,第9期

机译：PbS量子点/ TiO2介观太阳能电池新型接头的设计与开发
2. In-situ solution chemical reaction deposition of Bi2S3 quantum dots on mesoscopic TiO2 films for application in quantum-dot-sensitized solar cells [J] . Ma Yuanliang, Li Haiqin, Yuan Jing Integrated Ferroelectrics . 2016,第Null期

机译：Bi2S3量子点在介观TiO2薄膜上的原位溶液化学反应沉积，用于量子点敏化太阳能电池
3. In situ solution chemical reaction deposition of Bi2S3 quantum dots on mesoscopic TiO2 films for application in quantum dot sensitised solar cells [J] . Lu L., Yang D., Liu W., Materials Technology . 2016,第3期

机译：Bi2S3量子点在介观TiO2薄膜上的原位溶液化学反应沉积，用于量子点敏化太阳能电池
4. Heterojunction TiO2/PbS quantum dot solar cells [C] . Neethu Ajayakumar, C. O. Sreekala, Anju Elsa Tom, International Conference on Electrical, Electronics, and Optimization Techniques . 2016

机译：异质结TiO2 / PbS量子点太阳能电池
5. Construction and Analysis of PbSe Quantum Dot Heterojunction Solar Cells. [D] . Gibbs, Markelle Lewis. 2014

机译：PbSe量子点异质结太阳能电池的构建与分析。
6. Infra-red photoresponse of mesoscopic NiO-based solar cells sensitized with PbS quantum dot [O] . Mahfoudh Raissi, Yann Pellegrin, Stéphane Jobic, -1

机译：PbS量子点敏化的介观NiO基太阳能电池的红外光响应
7. Infra-red photoresponse of mesoscopic NiO-based solar cells sensitized with PbS quantum dot [O] . Mahfoudh Raissi, Yann Pellegrin, Stéphane Jobic, 2016

机译：用PBS量子点致敏的基于介性NIO的太阳能电池的红外光响应

Design and Development of Novel Linker for PbS Quantum Dots/TiO2 Mesoscopic Solar cell

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