PbS/Cd3P2 quantum heterojunction colloidal quantum dot solar cells

Cao Hefeng; Liu Zeke; Zhu Xiangxiang; Peng Jun; Hu Long; Xu Songman; Luo Miao; Ma Wanli; Tang Jiang; Liu Huan

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PbS/Cd3P2 quantum heterojunction colloidal quantum dot solar cells

机译：PbS / Cd3P2量子异质结胶体量子点太阳能电池

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Here, we demonstrated the quantum heterojunction colloidal quantum dot (CQD) solar cells employing the PbS CQDs/Cd3P2 CQDs architecture in which both the p-type PbS and n-type Cd3P2 CQD layers are quantum-tunable and solution-processed light absorbers. We synthesized well-crystallized and nearly monodispersed tetragonal Cd3P2 CQDs and then engineered their energy band alignment with the p-type PbS by tuning the dot size and hence the bandgap to achieve efficient light absorbing and charge separation. We further optimized the device through the Ag-doping strategy of PbS CQDs that may leverage an expanded depletion region in the nlayer, which greatly enhances the photocurrent. The resulting devices showed an efficiency of 1.5%.

机译：在这里，我们展示了采用PbS CQDs / Cd3P2 CQDs体系结构的量子异质结胶体量子点（CQD）太阳能电池，其中p型PbS和n型Cd3P2 CQD层都是量子可调的且经过溶液处理的光吸收剂。我们合成了结晶良好且几乎单分散的四方Cd3P2 CQD，然后通过调整点的大小和带隙来设计其能带与p型PbS的能带排列，以实现有效的光吸收和电荷分离。我们通过PbS CQD的Ag掺杂策略进一步优化了器件，该策略可以利用n层中扩大的耗尽区，从而大大增强光电流。所得装置显示出1.5％的效率。

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来源
《Nanotechnology》 |2015年第3期|共7页
作者
Cao Hefeng; Liu Zeke; Zhu Xiangxiang; Peng Jun; Hu Long; Xu Songman; Luo Miao; Ma Wanli; Tang Jiang; Liu Huan;
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正文语种 eng
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colloidal quantum dot; solar cell; quantum junction; heterojunction;

机译：胶体量子点太阳能电池量子结异质结;

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专利

1. PbS/Cd3P2 quantum heterojunction colloidal quantum dot solar cells [J] . Cao Hefeng, Liu Zeke, Zhu Xiangxiang, Nanotechnology . 2015,第3期

机译：PbS / Cd3P2量子异质结胶体量子点太阳能电池
2. Air Stable PbSe Colloidal Quantum Dot Heterojunction Solar Cells: Ligand-Dependent Exciton Dissociation, Recombination, Photovoltaic Property, and Stability [J] . Zhang Yaohong, Ding Chao, Wu Guohua, The journal of physical chemistry, C. Nanomaterials and interfaces . 2016,第50期

机译：空气稳定的PbSe胶体量子点异质结太阳能电池：依赖于配体的激子解离，复合，光伏特性和稳定性
3. Quantitative measurements of charge carrier hopping transport properties in depleted-heterojunction PbS colloidal quantum dot solar cells from temperature dependent current-voltage characteristics [J] . Mandelis Andreas, Hu Lilei, Wang Jing RSC Advances . 2016,第95期

机译：耗尽异质结PBS胶体量子点太阳能电池的耗尽载流量跳转性能的定量测量来自温度依赖性电流 - 电压特性
4. Short-Wave Infrared PbS Colloidal Quantum Dot ZnO Nanowire Solar Cells Aimed at Tandem Solar Cells [C] . Haibin Wang, Takaya Kubo, Jotaro Nakazaki, Pacific Rim Meeting on Electrochemical and Solid-State Science . 2020

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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. Optimizing Surface Chemistry of PbS Colloidal Quantum Dot for Highly Efficient and Stable Solar Cells via Chemical Binding [O] . Long Hu, Qi Lei, Xinwei Guan, 2021

机译：通过化学结合优化高效稳定太阳能电池PBS胶体量子点的表面化学
7. Charge dynamics at heterojunctions for PbS/ZnO colloidal quantum dot solar cells probed with time-resolved surface photovoltage spectroscopy [O] . Assender, HE, Watt, AAR, Leontiadou, MA, 2016

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PbS/Cd3P2 quantum heterojunction colloidal quantum dot solar cells

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