Comparison of FTPS Performed on Thin Films and Solar Cells

Physica Status Solidi (c) Pub Date : 2017-10-25 DOI:10.1002/PSSC.201700165

N. Puspitosari, C. Longeaud, R. Lachaume, L. Zeyu, Rusli, P. Cabarrocas

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引用次数: 1

Abstract

Fourier Transform Photocurrent Spectroscopy (FTPS) has been used to investigate on the absorption coefficient versus photon energy (α(hν)) spectroscopy of thin film semiconductors. We have developed an FTPS experiment to study the α(hν) spectrum of hydrogenated amorphous silicon (a-Si:H) thin films, to subsequently deduce information on the density of states in the sub bandgap region. In this work we studied whether the same α(hν) spectroscopy could be found both for coplanar a-Si:H films deposited on glass and for NIP diodes incorporating the same material as the intrinsic layer. The back and front contacts of the diodes are made of transparent conductive oxides, either ITO or ZnO. The results show that the Urbach tails of both coplanar and NIP diodes are very similar but that α at low photon energy is slightly lower for the diodes than for the coplanar samples. In addition, we noticed that the diode with ZnO contacts presents a rapid increase of α below 0.95 eV. Transmission-reflection measurements performed on the diodes show that the diode with ZnO contacts exhibits a weaker transmission in the same wavelength range where we observed an increase of α, though the reflection with both types of contacts remains the same, indicating a parasitic absorption of the back ZnO layer. These results show that FTPS measurements performed on diodes must be taken very cautiously and that one has to take into account the optical properties (e.g., absorption) of the contacts to properly deduce reliable α(hν) spectroscopy.

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薄膜与太阳能电池FTPS之比较

利用傅里叶变换光电流光谱(FTPS)研究了薄膜半导体的吸收系数与光子能量(α(hν))谱。我们开发了一个FTPS实验来研究氢化非晶硅(a-Si:H)薄膜的α(hν)谱，从而推断出亚带隙区域的态密度信息。在这项工作中，我们研究了沉积在玻璃上的共面a-Si:H薄膜和采用相同材料作为本征层的NIP二极管是否可以找到相同的α(hν)光谱。二极管的前后触点由透明导电氧化物(ITO或ZnO)制成。结果表明，共面二极管和NIP二极管的厄巴赫尾非常相似，但低光子能量下的α值略低于共面样品。此外，我们注意到ZnO触点二极管的α值在0.95 eV以下迅速增加。对二极管进行的透射-反射测量表明，在我们观察到α增加的同一波长范围内，具有ZnO触点的二极管具有较弱的透射，尽管两种触点的反射保持不变，表明背面ZnO层的寄生吸收。这些结果表明，在二极管上进行的FTPS测量必须非常谨慎，并且必须考虑接触的光学性质(例如，吸收)，以适当地推导可靠的α(hν)光谱。

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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Physica Status Solidi (c)

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