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In situ growth of CuInS2 nanocrystals on nanoporous TiO2 film for constructing inorganic/organic heterojunction solar cells

机译：在纳米多孔TiO2薄膜上原位生长CuInS2纳米晶体以构建无机/有机异质结太阳能电池

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Inorganic/organic heterojunction solar cells (HSCs) have attracted increasing attention as a cost-effective alternative to conventional solar cells. This work presents an HSC by in situ growth of CuInS2>(CIS) layer as the photoabsorption material on nanoporous TiO2 film with the use of poly(3-hexylthiophene) (P3HT) as hole-transport material. The in situ growth of CIS nanocrystals has been realized by solvothermally treating nanoporous TiO2 film in ethanol solution containing InCl3 · 4H2O, CuSO4 · 5H2O, and thioacetamide with a constant concentration ratio of 1:1:2. InCl3 concentration plays a significant role in controlling the surface morphology of CIS layer. When InCl3 concentration is 0.1 M, there is a layer of CIS flower-shaped superstructures on TiO2 film, and CIS superstructures are in fact composed of ultrathin nanoplates as ‘petals’ with plenty of nanopores. In addition, the nanopores of TiO2 film are filled by CIS nanocrystals, as confirmed using scanning electron microscopy image and by energy dispersive spectroscopy line scan analysis. Subsequently, HSC with a structure of FTO/TiO2/CIS/P3HT/PEDOT:PSS/Au has been fabricated, and it yields a power conversion efficiency of 1.4%. Further improvement of the efficiency can be expected by the optimization of the morphology and thickness of CIS layer and the device structure.

机译：无机/有机异质结太阳能电池（HSC）作为传统太阳能电池的经济有效替代品已引起越来越多的关注。这项工作通过使用聚（3-己基噻吩）（P3HT）作为空穴传输材料，通过在纳米多孔TiO2薄膜上原位生长CuInS2 >（ CIS）层作为光吸收材料，提出了一种HSC。 CIS纳米晶体的原位生长是通过在含有InCl3 +·4H2O，CuSO4··5H2O和硫代乙酰胺的乙醇溶液中以1：1：2的恒定浓度对纳米多孔TiO2膜进行溶剂热处理实现的。 InCl3的浓度在控制CIS层的表面形态方面起着重要作用。当InCl3浓度为0.1 M时，在TiO2薄膜上会形成一层CIS花状超结构，而CIS上层结构实际上是由超薄纳米板构成的“花瓣”，具有大量的纳米孔。另外，如使用扫描电子显微镜图像和通过能量色散谱线扫描分析所证实的，TiO 2膜的纳米孔被CIS纳米晶体填充。随后，制造了具有FTO / TiO2 / CIS / P3HT / PEDOT：PSS / Au结构的HSC，其功率转换效率为1.4％。通过优化CIS层的形态和厚度以及器件结构，可以期望进一步提高效率。

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期刊名称 Nanoscale Research Letters
作者
Zhigang Chen; Minghua Tang; Linlin Song; Guoqiang Tang; Bingjie Zhang; Lisha Zhang; Jianmao Yang; Junqing Hu;
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作者单位

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年(卷),期 2013(8),1
年度 2013
页码 354
总页数 8
原文格式 PDF
正文语种
中图分类生化遗传学;生化药理学;
关键词
CuInS2 film In situ growth TiO2 P3HT Heterojunction solar cells;

机译：CuInS2薄膜;原位生长;TiO2;P3HT;异质结太阳能电池;

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专利

1. Solution-Processed Inorganic Solar Cell Based on in Situ Synthesis and Film Deposition of CuInS2 Nanocrystals [J] . Liang Li Nelson Coates and Daniel Moses Journal of the American Chemical Society . 2010,第1期

机译：基于CuInS2纳米晶体的原位合成和膜沉积的固溶无机太阳能电池
2. In Situ Construction of Nanoscale CdTe-CdS Bulk Heterojunctions for Inorganic Nanocrystal Solar Cells [J] . Zhaolai Chen, Hao Zhang, Qingsen Zeng, Advanced energy materials . 2014,第10期

机译：用于无机纳米晶体太阳能电池的纳米级CdTe-CdS本体异质结的原位构建
3. Hybrid Solar Cells with In-Situ Prepared Inorganic Nanoparticles/Polymer Bulk Heterojunction Films [J] . Eun-joo Kwak, Sungho Woo, Hyena Lee, Journal of Nanoelectronics and Optoelectronics . 2012,第5期

机译：具有原位制备的无机纳米粒子/聚合物本体异质结薄膜的混合太阳能电池
4. New Design Concepts for Inorganic Solar Cells: From Thin Films to Functional Nanostructures: Using a pulsed laser for in-situ growth of semiconductor core-shell nanostructures [C] . Lídice Vaillant Roca, Yerila Rodríguez Martínez, Jesús Antonio Alba Cabañas, Conference on Photonics North . 2017

机译：无机太阳能电池的新设计概念：从薄膜到功能纳米结构：使用脉冲激光原位生长半导体核-壳纳米结构
5. Electrical and optical characteristics of a-Si/P3HT inorganic-organic hybrid heterojunction devices for solar cells. [D] . Marin, William. 2014

机译：用于太阳能电池的a-Si / P3HT无机-有机混合异质结器件的电学和光学特性。
6. In Situ Growth of Metal Sulfide Nanocrystals in Poly(3-hexylthiophene): 66-Phenyl C61-Butyric Acid Methyl Ester Films for Inverted Hybrid Solar Cells with Enhanced Photocurrent [O] . Chunyan Yang, Yingying Sun, Xinjie Li, 2018

机译：聚（3-己基噻吩）中金属硫化物纳米晶体的原位生长：66-苯基C61-丁酸甲基酯膜用于具有增强光电流的反向混合太阳能电池
7. growth of CuInS nanocrystals on nanoporous TiO film for constructing inorganic/organic heterojunction solar cells [O] . 2013

机译：纳米TiO 2薄膜上CuInS纳米晶体的生长用于构建无机/有机异质结太阳能电池

In situ growth of CuInS2 nanocrystals on nanoporous TiO2 film for constructing inorganic/organic heterojunction solar cells

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