用于无机-有机敏化太阳能电池的高效室温水性Sb2S3合成，效率达5.1% 。

Efficient room temperature aqueous Sb2S3 synthesis for inorganic-organic sensitized solar cells with 5.1% efficiencies.

作者信息

Gödel Karl C, Choi Yong Chan, Roose Bart, Sadhanala Aditya, Snaith Henry J, Seok Sang Il, Steiner Ullrich, Pathak Sandeep K

机构信息

Cavendish Laboratory, Department of Physics, University of Cambridge, J J Thomson Avenue, Cambridge CB3 0HE, UK.

出版信息

Chem Commun (Camb). 2015 May 21;51(41):8640-3. doi: 10.1039/c5cc01966d.

DOI:10.1039/c5cc01966d

PMID:25900075

Abstract

Sb2S3 sensitized solar cells are a promising alternative to devices employing organic dyes. The manufacture of Sb2S3 absorber layers is however slow and cumbersome. Here, we report the modified aqueous chemical bath synthesis of Sb2S3 absorber layers for sensitized solar cells. Our method is based on the hydrolysis of SbCl3 to complex antimony ions decelerating the reaction at ambient conditions, in contrast to the usual low temperature deposition protocol. This simplified deposition route allows the manufacture of sensitized mesoporous-TiO2 solar cells with power conversion efficiencies up to η = 5.1%. Photothermal deflection spectroscopy shows that the sub-bandgap trap-state density is lower in Sb2S3 films deposited with this method, compared to standard deposition protocols.

摘要

硫化锑（Sb2S3）敏化太阳能电池是采用有机染料的器件的一种有前景的替代方案。然而，硫化锑吸收层的制造过程缓慢且繁琐。在此，我们报告了用于敏化太阳能电池的硫化锑吸收层的改进水相化学浴合成法。我们的方法基于三氯化锑（SbCl3）水解形成络合锑离子，从而在环境条件下减缓反应，这与通常的低温沉积方案不同。这种简化的沉积路线使得能够制造出功率转换效率高达η = 5.1%的敏化介孔二氧化钛太阳能电池。光热偏转光谱表明，与标准沉积方案相比，用这种方法沉积的硫化锑薄膜中的亚带隙陷阱态密度更低。

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用于无机-有机敏化太阳能电池的高效室温水性Sb2S3合成，效率达5.1% 。

Efficient room temperature aqueous Sb2S3 synthesis for inorganic-organic sensitized solar cells with 5.1% efficiencies.

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