基于Pt、cu、Cu2S和PbS对电极的CdS/CdSe/ZnS光阳极共敏太阳能电池

Q3 Engineering

Advances in Optoelectronics Pub Date : 2014-02-27 DOI:10.1155/2014/397681

T. Thanh, D. Thanh, V. Lam

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引用次数: 27

摘要

采用连续离子层吸附反应(SILAR)法制备了CdS、CdSe和ZnS量子点修饰的高有序介孔TiO2。材料沉积的数量似乎不仅受所采用的沉积方法的影响，而且主要受下垫层性质的影响。通过紫外可见光谱证实，CdS、CdSe和ZnS量子点修饰将介孔TiO2的光响应范围从紫外区扩展到可见光区。优化的阳极电极使太阳能电池产生高电流密度。Pt、cu、PbS和Cu2S在对电极上用作电催化剂。使用Pt电催化剂获得的最大太阳能转换效率为1.52%。cu, PbS和Cu2S产生高电流，这与在它们的情况下记录的低电荷转移电阻一致。

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The CdS/CdSe/ZnS Photoanode Cosensitized Solar Cells Basedon Pt, CuS, Cu2S, and PbS Counter Electrodes

Highly ordered mesoporous TiO2 modified by CdS, CdSe, and ZnS quantum dots (QDs) was fabricated by successive ionic layer adsorption and reaction (SILAR) method. The quantity of material deposition seems to be affected not only by the employed deposition method but also and mainly by the nature of the underlying layer. The CdS, CdSe, and ZnS QDs modification expands the photoresponse range of mesoporous TiO2 from ultraviolet region to visible range, as confirmed by UV-Vis spectrum. Optimized anode electrodes led to solar cells producing high current densities. Pt, CuS, PbS, and Cu2S have been used as electrocatalysts on counter electrodes. The maximum solar conversion efficiency reached in this work was 1.52% and was obtained by using Pt electrocatalyst. CuS, PbS, and Cu2S gave high currents and this was in line with the low charge transfer resistances recorded in their case.

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来源期刊

Advances in Optoelectronics ENGINEERING, ELECTRICAL & ELECTRONIC-

CiteScore

1.30

自引率

0.00%

发文量

期刊介绍： Advances in OptoElectronics is a peer-reviewed, open access journal that publishes original research articles as well as review articles in all areas of optoelectronics.