Co-sensitization of ZnO by CdS quantum dots in natural dye-sensitized solar cells with polymeric electrolytes to improve the cell stability

机译：CDS量子点在天然染料敏化太阳能电池中的CDS量子点与聚合物电解质的共敏化，提高电池稳定性

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The CdS quantum dots (QDs) were deposited on ZnO layer by chemical bath deposition method to absorb light in the shorter wavelength region and used as photoanode in the dye sensitized solar cell (DSSCs) with natural dye extracted from Noni leaves. Microstructures of CdS-ZnO from various dipping time were characterized by XRD, FE-SEM and EDX. The results showed that the CdS is hexagonal structure and the amount of CdS increases when the dipping time increases. The maximal conversion efficiency of 0.292% was achieved by the DSSCs based on CdS QDs-sensitized ZnO film obtained from 9 min-dipping time. Furthermore, the stability of DSSCs was improved by using polymeric electrolyte. Poly (acrylic acid) (PAA) and Polyacrylamide (PAM) were introduced to CdS QDs-sensitized ZnO film from 9 min-dipping time. Each polymeric electrolyte was prepared by swelling from 0.1-2.0 %w in H_2O. The maximal conversion efficiency of 0.207% was achieved for DSSCs based on CdS QDs-sensitized ZnO film with PAM 1.0% and the conversion efficiency was decreased 25% when it was left forl hr.

机译：CDS量子点（QDS）通过化学浴沉积方法沉积在ZnO层上，以吸收较短波长区域中的光，并用作染料中的光潮，用诺伊叶提取的天然染料。来自各种浸渍时间的CDS-ZnO的微观结构是通过XRD，Fe-SEM和EDX的特征。结果表明，CD是六边形结构，当浸渍时间增加时CD的量增加。基于9分钟浸渍时间的CDS QDS敏化ZnO膜，DSSCs实现了0.292％的最大转化效率。此外，通过使用聚合物电解质改善了DSSCs的稳定性。将聚（丙烯酸）（PAA）和聚丙烯酰胺（PAM）引入CDS QDS-敏化的ZnO膜，从9分钟浸渍时间。通过在H_2O中溶胀0.1-2.0％w，通过在0.1-2.0％w中溶胀来制备每个聚合物电解质。基于CDS QDS敏化ZnO膜的DSSC为基于PAM 1.0％的DSSC，达到最大转化效率为0.207％，并且当它留下液体时，转化效率降低了25％。

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《International Conference of the Polymer Processing Society》|2015年||共5页
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W. Junhom; R. Magaraphan;
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中图分类 O43-53;
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CdS quantum dots (CdS QDs); Dye-sensitized solar cells (DSSCs); poly (acrylic acid) (PAA); polyacrylamide (PAM);

机译：CDS量子点（CDS QD）;染料敏化太阳能电池（DSSCs）;聚（丙烯酸）（PAA）;聚丙烯酰胺（PAM）;

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机译：染料敏化太阳能电池中TiO_2电极与CdS量子点和染料N719的共敏化大大改善了光电性能
2. Improved charge separation and transport efficiency in panchromatic-sensitized solar cells with co-sensitization of PbS/CdS/ZnS quantum dots and dye molecules [J] . Luo Songping, Shen Heping, Hu Wei, RSC Advances . 2016,第25期

机译：具有PBS / CDS / ZnS量子点和染料分子的共敏化的平面致敏太阳能电池中的电荷分离和运输效率
3. Improving charge separation of solar cells by the co-sensitization of CdS quantum dots and dye [J] . Xin Song, rnXue-Lian Yu, rnYang Xie, Semiconductor science and technology . 2010,第9期

机译：通过CdS量子点和染料的共敏化改善太阳能电池的电荷分离
4. Co-sensitization of ZnO by CdS quantum dots in natural dye-sensitized solar cells with polymeric electrolytes to improve the cell stability [C] . W. Junhom, R. Magaraphan International Conference of the Polymer Processing Society . 2015

机译：CDS量子点在天然染料敏化太阳能电池中的CDS量子点与聚合物电解质的共敏化，提高电池稳定性
5. Growth and Characterization of Type-II Submonolayer ZnCdTe/ZnCdSe Quantum Dot Superlattices for Efficient Intermediate Band Solar Cells. [D] . Dhomkar, Siddharth. 2015

机译：高效中带太阳能电池II型亚单层ZnCdTe / ZnCdSe量子点超晶格的生长和表征。
6. Improved Open- Circuit Voltage in ZnO–PbSe Quantum Dot Solar Cells by Understanding and Reducing Losses Arising from the ZnO Conduction Band Tail [O] . Robert L Z Hoye, Bruno Ehrler, Marcus L Böhm, -1

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7. Effect of co-sensitization of InSb quantum dots on enhancing the photoconversion efficiency of CdS based quantum dot sensitized solar cells [O] . T. Archana, K. Vijayakumar, G. Subashini, 2020

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Co-sensitization of ZnO by CdS quantum dots in natural dye-sensitized solar cells with polymeric electrolytes to improve the cell stability

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