Composite Counter Electrode Based on Nanoparticulate PbS and Carbon Black: Towards Quantum Dot-Sensitized Solar Cells with Both High Efficiency and Stability

Yueyong Yang; Lifeng Zhu; Huicheng Sun

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Composite Counter Electrode Based on Nanoparticulate PbS and Carbon Black: Towards Quantum Dot-Sensitized Solar Cells with Both High Efficiency and Stability

机译：基于纳米微粒PbS和炭黑的复合对电极：面向高效高效且稳定的量子点敏化太阳能电池

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PbS/carbon black (CB) composite counter electrode (CE) has been fabricated by a low cost and low temperature processable method using the wet chemistry synthesized PbS nanoparticles. The nanosized PbS in the composite CE provides a large area of catalytic sites, and the chain-type CB framework acts as an excellent electrical tunnel for fast electron transport from an external circuit to highly catalytic PbS nanoparticles. The optimized PbS/CB composite CE shows a charge transfer resistance (R_(CT)) as low as 10.28 Ω cm~2, which is an order of magnitude lower than the value J obtained in the previous study on pure PbS CE. The CdS/CdSe quantum dot-sensitized solar cells with the PbS/CB composite CE achieve a photovoltaic conversion efficiency of 3.91% and no degradation of the efficiency over 1000 h under room conditions.

机译：已使用湿化学合成的PbS纳米粒子通过低成本和低温可加工方法制造了PbS /炭黑（CB）复合对电极（CE）。复合材料CE中的纳米级PbS提供了大面积的催化位点，并且链型CB骨架充当了极好的电通道，可将电子从外部电路快速传输到高催化性的PbS纳米颗粒。优化的PbS / CB复合材料CE的电荷转移电阻（R_（CT））低至10.28Ωcm〜2，比先前的纯PbS CE研究获得的值J低一个数量级。具有PbS / CB复合CE的CdS / CdSe量子点敏化太阳能电池在室温下经过1000小时后的光伏转换效率为3.91％，且效率未降低。

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《ACS applied materials & interfaces》 |2012年第11期|共7页
作者
Yueyong Yang; Lifeng Zhu; Huicheng Sun;
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正文语种 eng
中图分类化学工业;
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quantum dot-sensitized solar cell; lead sulfide; carbon black; counter electrode; solvothermal; nanoparticle;

机译：量子点敏化太阳能电池硫化铅炭黑对电极溶剂热纳米粒子;
入库时间 2022-08-18 10:00:53

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1. Composite Counter Electrode Based on Nanoparticulate PbS and Carbon Black: Towards Quantum Dot-Sensitized Solar Cells with Both High Efficiency and Stability [J] . Yueyong Yang, Lifeng Zhu, Huicheng Sun ACS applied materials & interfaces . 2012,第11期

机译：基于纳米微粒PbS和炭黑的复合对电极：面向高效高效且稳定的量子点敏化太阳能电池
2. Solution processed low-cost and highly electrocatalytic composite NiS/PbS nanostructures as a novel counter-electrode material for high-performance quantum dot-sensitized solar cells with improved stability [J] . Gopi Chandu V. V. M., Venkata-Haritha Mallineni, Ravi Seenu, Journal of Materials Chemistry, C. materials for optical and electronic devices . 2015,第48期

机译：固溶处理的低成本和高电催化复合NiS / PbS纳米结构，作为一种新型反电极材料，用于具有改进稳定性的高性能量子点敏化太阳能电池
3. CuS/brass based counter electrode in quantum dot-sensitized solar cells (QDSCs) with considerable efficiency and good stability [J] . Liang Weitao, Zhu Liqun, Liu Huicong, Electrochimica Acta . 2015,第Null期

机译：量子点敏化太阳能电池（QDSC）中基于CuS /黄铜的对电极，具有相当高的效率和良好的稳定性
4. Carbon black-LaCoO_3 composite material as counter electrode for quasi-solid-state dye-sensitized solar cell [C] . Voranuch Somsongkul, Atchana Wongchaisuwat, Attera Worayingyong, International Conference on Optical, Electronic and Electrical Materials;OEEM2010 . 2011

机译：炭黑-LaCoO_3复合材料作为准固态染料敏化太阳能电池的对电极
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. Carbon nanotube/metal-sulfide composite flexible electrodes for high-performance quantum dot-sensitized solar cells and supercapacitors [O] . Chandu V. V. Muralee Gopi, Seenu Ravi, S. Srinivasa Rao, -1

机译：用于高性能量子点敏化太阳能电池和超级电容器的碳纳米管/金属硫化物复合柔性电极
7. Low-Cost Dye-Sensitized Solar Cells Based on Interconnected FTO-Activated Carbon Nanoparticulate Counter Electrode Showing High Efficiency [O] . 2015

机译：基于互联的FTO活性炭纳米颗粒对应电极的低成本染料敏化太阳能电池显示出高效率
8. NREL Highlights: Improving PbS Quantum Dot Solar Cell Power Conversion Efficiency to an NREL-Certified 4.4 Percetn: Transition Metal Oxide Improves Overall Efficiency and Maintain Performance with Inexpensive Metals. [R] . 2012

机译：NREL亮点：将pbs量子点太阳能电池功率转换效率提高到NREL认证的4.4 percetn：过渡金属氧化物通过廉价金属提高整体效率并保持性能。

Composite Counter Electrode Based on Nanoparticulate PbS and Carbon Black: Towards Quantum Dot-Sensitized Solar Cells with Both High Efficiency and Stability

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