Fabrication and Characterization of Silicon Nanowires Heterojunction Solar Cell

Hana H. Inaya, Mazin A. Mahdi
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Abstract

Silicon nanowire arrays (SiNWs) are created utilizing the metal-assisted chemical etching method with an Ag metal as a catalyst and different etching time of 15, 30, and 60 minutes using n-Si (100). Physical properties such as structural, surface morphology, and optical properties of the prepared SiNWs are studied. The diameter of prepared SiNWs ranged from 20 to 280 nm, and the reflectance in the visible part of the wavelength spectrum was less than 1% for all prepared samples. The obtained energy gap of prepared SiNWs was around 2 eV, which is higher than the energy gap of bulk silicon. X-ray diffraction (XRD) has diffraction peaks at 68.70o for all prepared samples. The heterojunction solar cell was fabricated based on the n-SiNWs/ P3HT/PEDOT: PSS structure. The heterojunction solar cell produced for 60 minutes has the highest Jsc of 11.55 mA.cm-2 and a conversion efficiency of 0.93%. Based on SiNWs prepared for etching time of 15 min, the solar cell demonstrated Jsc and Voc of 2.73 mA/cm2 and 0.46 V, respectively, and a conversion efficiency of 0.34%.
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硅纳米线异质结太阳能电池的制备与表征
采用金属辅助化学蚀刻方法,以银金属为催化剂,以n-Si(100)为基材,蚀刻时间分别为15、30和60分钟,制备了硅纳米线阵列。研究了所制备的SiNWs的结构、表面形貌和光学性质等物理性质。制备的SiNWs直径在20 ~ 280 nm之间,波长光谱可见部分的反射率均小于1%。所得SiNWs的能隙约为2ev,高于本体硅的能隙。所有样品的x射线衍射(XRD)衍射峰均在68.70°。采用n-SiNWs/ P3HT/PEDOT: PSS结构制备了异质结太阳能电池。制备60分钟的异质结太阳能电池Jsc最高,为11.55 mA。Cm-2,转化效率为0.93%。基于刻蚀时间为15 min的SiNWs,该太阳能电池的Jsc和Voc分别为2.73 mA/cm2和0.46 V,转换效率为0.34%。
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