CdTe纳米颗粒烧结成功能大块吸收层的几个方面

S. Hawks, Abdullah S Abbas, A. Alivisatos
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引用次数: 0

摘要

烧结半导体纳米晶体代表了一种可能的低成本途径来制造光伏应用的功能性大块吸收层。在这里,我们重点介绍了将碲化镉四足体烧结成光滑、致密、多晶薄膜的关键方面,这种薄膜能够生产出效率为bb0%的太阳能电池,其活性层厚度仅为~500纳米。尽管表现不错,但我们发现就目前最先进的工艺和器件结构而言,仍有改进的空间。也就是说,“最佳”薄膜/器件具有极低的光致发光率、50-100纳米量级的晶粒尺寸、亚稳态的ITO/CdTe空穴收集接触以及不纯的CdTe。我们的研究结果进一步表明,这种创建功能碲吸收层的方法具有巨大的潜力,超出了文献中已经令人鼓舞的结果。
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Aspects of sintering CdTe nanoparticles into functional bulk absorber layers
Sintering semiconductor nanocrystals represents a possible low-cost route to creating functional bulk absorber layers for photovoltaic applications. Here we highlight the critical aspects of sintering CdTe tetrapods into smooth, dense, polycrystalline films that are capable of yielding >7% efficient solar cells with just ~500 nm thick active layers. Despite respectable performance, we find that there is room for improvement regarding the current state-of-the-art processing and device structure. Namely, `optimal' films/devices have exceptionally low photoluminescence yield, grain sizes on the order of 50-100 nm, a metastable ITO/CdTe hole-collecting contact, and CdTe that is not phase pure. Our findings further suggest that this approach to creating functional CdTe absorber layers has great potential beyond the already encouraging results reported in the literature.
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