Highly transparent low sheet resistance electrodes for solar cell applications

A. S. Shikoh, A. Popelka, F. Touati, M. Benammar, Zhaozhao Zhu, T. Mankowski, K. Balakrishnan, M. Mansuripur, C. Falco
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引用次数: 2

Abstract

High aspect ratio copper nanowires were synthesized, using a solution-based approach. The nanowires along with reduced graphene oxide thin films were sprayed onto glass and flexible substrates and later annealed in order to produce transparent conducting electrodes (TCEs). These electrodes exhibited 91.5% optical transmissivity and around 9- Ω/sq sheet resistance, which are comparable to Indium Tin Oxide (ITO). In addition, the hybrid TCEs, when exposed to ambient temperature showed slowed sheet resistance degradation. The electrodes deposited on a flexible substrate, showed immunity against any notable changes in the sheet resistance, when gone through numerous bending cycles. Adaption of such nanomaterials in conducting films could lead to the potential alternatives for the conventional ITO, with applications in numerous industries, including solar cells manufacturing.
用于太阳能电池的高透明低片电阻电极
采用溶液法合成了高纵横比铜纳米线。将纳米线与还原氧化石墨烯薄膜一起喷涂到玻璃和柔性基板上,然后退火以产生透明导电电极(TCEs)。这些电极具有91.5%的光学透过率和约9- Ω/sq sheet的电阻,与氧化铟锡(ITO)相当。此外,当暴露于环境温度时,杂化tce的片电阻下降速度减慢。电极沉积在柔性衬底上,当经过多次弯曲循环时,对片电阻的任何显着变化都具有免疫力。在导电薄膜中采用这种纳米材料可能会导致传统ITO的潜在替代品,并在包括太阳能电池制造在内的许多行业中得到应用。
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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