Novel hybrid amorphous/organic tandem junction solar cell

S. Pattnaik, T. Xiao, R. Shinar, J. Shinar, V. Dalal
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Abstract

We report on a novel hybrid amorphous Si-organic series-connected tandem junction solar cell. The solar cell is fabricated on indium tin oxide (ITO)-coated glass and uses an a-(Si,C):H as the first cell and a P3HT/PCBM organic cell as the second cell. An intermediate ITO layer is used as an ohmic layer which provides an excellent contact to both the first and the second cells. By adjusting the bandgap and thickness of the first a-(Si,C):H cell, we achieve an almost complete matching of currents produced by the first and the second cells. The first cell produces ∼0.95–1.0-V open-circuit voltage, and the second cell produces ∼0.6-V open-circuit voltage. The combined cell produces 1.5-V open-circuit voltage and had a fill factor of 77%, showing the effectiveness of the intermediate ITO layer to act as an excellent connecting layer between the two cells.When such an ITO layer is not used, the fill factor is very poor. The solar conversion efficiency of the organic cell was 4.3%, whereas the efficiency of the tandem cell was 5.7%. We also measured the stability of the organic cell with and without an inorganic cell acting as a filter in front. It is shown that the degradation of the organic cell is much higher when it is subjected to a full solar spectrum, as compared with when it is subjected to light passing through an inorganic cell first, which filters out ultraviolet (UV) and blue photons. Thus,we showthat this new cell combination has the potential to significantly increase the efficiency of organic cells while also decreasing the instability. We also discuss the potential of achieving much higher efficiencies, that is approaching 20%, by using an appropriate combination of amorphous and organic cells. An example is shown next.
新型杂化非晶/有机串联结太阳能电池
报道了一种新型非晶硅-有机串联结太阳能电池。该太阳能电池是在氧化铟锡(ITO)涂层玻璃上制造的,采用a-(Si,C):H作为第一电池,P3HT/PCBM有机电池作为第二电池。中间ITO层用作欧姆层,为第一和第二电池提供良好的接触。通过调整第一个a-(Si,C):H电池的带隙和厚度,我们实现了第一个和第二个电池产生的电流几乎完全匹配。第一个电池产生~ 0.95 ~ 1.0 v开路电压,第二个电池产生~ 0.6 v开路电压。该组合电池产生1.5 v开路电压,填充系数为77%,表明中间ITO层作为两个电池之间良好连接层的有效性。当不使用这种ITO层时,填充系数非常差。有机电池的太阳能转换效率为4.3%,串联电池的效率为5.7%。我们还测量了有无机细胞和没有无机细胞作为过滤器的有机细胞的稳定性。结果表明,当有机电池受到完整的太阳光谱照射时,其降解程度远高于首先通过无机电池的光,无机电池会过滤掉紫外线和蓝色光子。因此,我们表明,这种新的细胞组合有潜力显著提高有机细胞的效率,同时也减少了不稳定性。我们还讨论了通过使用非晶和有机电池的适当组合,实现更高效率的潜力,接近20%。下面给出一个示例。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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