仿植物叶子表面微纳结构的光学性能

人工晶体学报, 2016, 45(1): 285-290.

仿植物叶子表面微纳结构的光学性能

黄仲佳 ^1, , 蔡聪聪 ^2, , 杨赛 ^3, , 章辉 ^4, , 王刚 ^5, , 曹伟 ^6,

1.安徽工程大学,安徽省高性能有色金属材料省级实验室,芜湖241000

2.安徽工程大学,安徽省高性能有色金属材料省级实验室,芜湖241000

3.安徽工程大学,安徽省高性能有色金属材料省级实验室,芜湖241000

4.苏州大学功能纳米软物质研究院,苏州大学-西部大学同步辐射研究中心,苏州215123

5.安徽工程大学,安徽省高性能有色金属材料省级实验室,芜湖241000

6.奥卢大学高分子材料研究中心,奥卢FIN-90014

基金项目: 安徽省高校优秀人才基金(2012SQRL083ZD) 国家自然科学基金(51205001)

关键词：光学性能 , 雾度率 , 光伏效益 , 散光

Optical Properties of Micro/Nano-structure of Plant Leaf Mimicking Surface

Keywords： optical property , haze rate , photovoltaic efficiency , astigmatism

采用双液相转写法制备具有植物叶子表面微纳结构的有机玻璃.采用透光率雾度仪检测仿叶子有机玻璃薄膜(LM-PMMA)的光学性能.研究仿叶子薄膜的透射、反射率、散光、及其对光伏效益的影响,并采用蒙特卡洛法计算光学性能及模拟光路传播.结果表明:与光滑有机玻璃相比,仿生有机玻璃具有高达85％的雾度率,并有效提高硅太阳电池的效益;仿生微纳表面结构均有效减少反射、增透及增加硅的光吸收率;另外,光在“乳突”结构中的转播过程模拟结果说明:折射、聚焦、散射是仿叶子有机玻璃散光主要原因.

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