Anti‐Reflective Graded‐Index Metasurface with Correlated Disorder for Light Management in Planar Silicon Solar Cells

材料科学 平面的 光电子学 索引(排版) 光学 工程物理 计算机科学 物理 计算机图形学(图像) 万维网
作者
Prerak Dhawan,Maria Gaudig,Alexander Sprafke,Peter M. Piechulla,Ralf B. Wehrspohn,Carsten Rockstuhl
出处
期刊:Advanced Optical Materials [Wiley]
卷期号:12 (15) 被引量:7
标识
DOI:10.1002/adom.202302964
摘要

Abstract Recently, many research efforts have been dedicated to improving light coupling into solar cells and reducing optical losses. Promising candidates regarding scalability include direct nano‐structuring of the absorber layer, anti‐reflective (AR) coatings, or combining both, e.g., pyramidal textures with a conformal coating. However, many of these methods are either insufficient or infeasible for application in thin solar cells. Moreover, approaches based on directly texturing the silicon interface simultaneously strongly increase surface recombination, thus degrading the electronic properties of the solar cell. To circumvent these issues, conformal graded‐index metasurfaces with a correlated positional disorder for light trapping in solar cells are proposed and experimentally demonstrated in this contribution. When considered as a part of a prototypical solar cell geometry, a broadband reduction in reflection is observed that results in photocurrent enhancement. The combined consideration of disorder and conformal graded‐index layers outperforms structures containing only one of these components. The computational guidance toward optimized designs promises to adjust the framework to other settings. The possibility for large‐scale fabrication of the samples paves the way toward a future generation of supporting photonic structures in solar cells.

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