硅纳米球光刻技术在c-Si表面反应离子刻蚀变形中的应用

Jea-Young Choi, C. Honsberg
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引用次数: 2

摘要

应用反应离子刻蚀(RIE)工艺在太阳能电池用晶体硅(c-Si)表面刻蚀出不同形状的纳米级纹理。在这项工作中,二氧化硅纳米球(NS)作为掩膜材料,利用硅表面和二氧化硅纳米球之间的选择性蚀刻进行纹理化。为了有效地沉积二氧化硅NS,我们还开发了自己的溶剂控制自旋镀膜方法,该方法在普通实验室环境下具有很大的单层覆盖率,与传统方法(湿度和温度控制自旋镀膜或Langmuir-Blodgett槽浸渍镀膜方法)相比,可能更适合低成本制造。在RIE工艺中,通过蚀刻各种形状的表面纹理来降低表面反射率,光谱响应测量证实了RIE纹理的有效性,在1.0 um波长以下的光反射率低于2%,具有显著的增透效果。此外,还对RIE织构表面进行了醌/甲醇(QHY/ME)表面钝化实验,评价了RIE织构对表面复合速度和少数载流子寿命的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Reactive ion etching surface texturing of c-Si using silica nanosphere lithography technique for solar cell application
A reactive ion etching (RIE) process has been applied to etch diverse shape of nanoscale surface texturing on crystalline silicon (c-Si) for solar cell application. In this work, silica nanospheres (NS) were used as a mask material to utilize selective etching between silicon surface and silica NS for texturing. For effective silica NS deposition, we also developed our own solvent-control spin-coating method showing great monolayer coverage under common laboratory environment which is possibly more suitable for low-cost fabrication compared to conventional approach (moisture and temperature controlled spin-coating or dipping coating method by Langmuir-Blodgett trough). In RIE process, the surface texturing was etched with various shapes to reduce the reflectivity from surface, and the spectral response measurement confirms the effectiveness of RIE texturing which showed phenomenal anti-reflection effect with less than 2% of light reflection below 1.0 um wavelength. In addition, experiments for Quinhydrone/Methanol (QHY/ME) surface passivation for RIE textured surface were proceeded to evaluate RIE texturing effect for surface recombination velocity and minority carrier lifetime.
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