材料科学
纳米片
勃姆石
光电子学
折射率
图层(电子)
防反射涂料
能量转换效率
反射(计算机编程)
硅
电流密度
晶体硅
氮化硅
高折射率聚合物
太阳能电池
反射损耗
电流(流体)
化学工程
纳米技术
反射率
功率密度
硒化铜铟镓太阳电池
光学
作者
Hailong Feng,Siyu Jin,Feiyang Cheng,Ming Ruan,Xiaodong Zhu,Deren Yang,Lei Wang
标识
DOI:10.1021/acsaem.5c04124
摘要
Current crystalline silicon (c-Si) solar cells typically employ pyramidal texturing and a silicon nitride (SiNx) film to suppress light reflection and improve the power conversion efficiency (PCE). However, appreciable reflection persists at both short and long wavelengths, indicating that further optical optimization is possible. Here, we introduce a boehmite nanosheet layer onto c-Si solar cells by leveraging the refractive index mismatch at the SiNx/air interface. Together with the pyramidal texture, the nanosheets form a micronano-composite structure with a graded refractive index. This architecture reduces the weighted-average reflectivity (300–1100 nm) from 4.66% to 3.80%, increases the short-circuit current density by 0.26 mA cm–2, and improves the PCE by 0.18%. The method provides a low-cost route to add an auxiliary antireflection layer to existing c-Si architectures, enhancing both short- and long-wavelength responses and potentially extending to other solar-cell technologies.
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