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Superhydrophobic Lotus Leaf Structured Foils for Light Management and Self-cleaning in Photovoltaic Devices

机译：超疏水莲花叶结构箔，用于光伏设备的轻型管理和自清洁

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Modularly attachable light management and self-cleaning foils are highly desirable for photovoltaic technology. In this work we demonstrate a simple processing method to fabricate a lotus leaf textured fluoropolymer by nanoimprint lithography and hot embossing. We investigated both, light management qualities as well as self-cleaning properties, by comparing foils with lotus leaf structure and random micro-pyramids.Implementation of the lotus leaf textured foil to the sun facing airglass interface of liquid phase crystalized silicon thin-film solar cells was found to increase the short-circuit current density Jsc from 26.4 mA/cm^{2 to 27.3 mA/cm^{2 (3.4 % relative gain). At the same time, the contact angle of the planar glass superstrate was improved from 47° to superhydrophobic 157° by the attached lotus foil.}}

机译：光伏技术非常适合模块化可连接的光管理和自清洁箔。在这项工作中，我们证明了一种简单的加工方法，通过纳米压印光刻和热压印制造莲花叶纹理含氟聚合物。我们通过将箔与莲花叶结构和随机微金字塔进行比较来调查轻型管理品质以及自清洁性质。莲花叶子织地用箔的薄膜面向液相结晶硅薄膜太阳能发现细胞增加短路电流密度J. sc 从26.4 mA / cm^{2 到27.3 mA / cm^{2 （3.4％的相对收益）。同时，通过附着的莲花箔从47°到超疏水的157°改善平面玻璃玻璃的接触角。}}

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《IEEE Photovoltaic Specialists Conference》|2021年|0719-0721|共3页
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D. Yoo; S. Garud; D. Amkreutz; C. Becker;
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Photovoltaic systems; Reflectivity; Fabrication; Photovoltaic cells; Embossing; Short-circuit currents; Glass;

机译：光伏系统;反射率;制造;光伏电池;压花;短路电流;玻璃;
入库时间 2022-08-26 13:57:13

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1. Superhydrophobic and self-cleaning behavior of Portland cement with lotus-leaf-like microstructure [J] . Liu Peng, Gao Yining, Wang Fazhou, Journal of Cleaner Production . 2017,第jula10期

机译：荷叶状微结构硅酸盐水泥的超疏水和自清洁性能
2. Light-Driven Transformation of Bio-Inspired Superhydrophobic Structure via Reconfigurable PAzoMA Microarrays: From Lotus Leaf to Rice Leaf [J] . Gao Fei, Yao Yuan, Wang Wei, Macromolecules . 2018,第7期

机译：通过可重构的Pazoma微阵列进行生物启发超细杂交结构的轻型驱动转化：从莲花叶到米叶
3. Light Management with Patterned Micro- and Nanostructure Arrays for Photocatalysis, Photovoltaics, and Optoelectronic and Optical Devices [J] . WenhuiWang, LiminQi Advanced Functional Materials . 2019,第25期

机译：具有图案化的微结构和纳米结构阵列的光管理，用于光催化，光伏以及光电和光学设备
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机译：有机光伏器件中用于光管理的纳米结构设计
5. Nano-structured self-cleaning superhydrophobic glass. [D] . Kim, Jin Yeol. 2010

机译：纳米结构的自清洁超疏水玻璃。
6. A Novel Nanocone Cluster Microstructure with Anti-reflection and Superhydrophobic Properties for Photovoltaic Devices [O] . Jing Ma, Yuanfei Ai, Lei Kang, 2018

机译：具有抗反射和超疏水性能的光伏器件的新型纳米锥簇微结构
7. Modelling Supported Design of Light Management Structures in Ultra-Thin Cigs Photovoltaic Devices [O] . 2019

机译：超薄CIGS光伏器件中光管理结构的建模设计
8. Simultaneous TEM Thin-Foil Preparation and SIMS Analysis of Multilayered Photovoltaic Devices [R] . Jones, K. M. 1983

机译：同时TEm薄膜制备和多层光伏器件的sIms分析

Superhydrophobic Lotus Leaf Structured Foils for Light Management and Self-cleaning in Photovoltaic Devices

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