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A Mini Review on Superhydrophobic and Transparent Surfaces.
The Chemical Record ( IF 6.6 ) Pub Date : 2020-09-21 , DOI: 10.1002/tcr.202000075 Ling Fei 1 , Zizhou He 1 , Jed D LaCoste 1 , Thu Hoai Nguyen 1 , Yingqiang Sun 2
The Chemical Record ( IF 6.6 ) Pub Date : 2020-09-21 , DOI: 10.1002/tcr.202000075 Ling Fei 1 , Zizhou He 1 , Jed D LaCoste 1 , Thu Hoai Nguyen 1 , Yingqiang Sun 2
Affiliation
In recent years, self‐cleaning and transparent surfaces have been widely studied for application on smart windows, solar panels, camera lenses, and other optoelectronic devices. The self‐cleaning properties can possibly extend the lifetime of these products and decrease, even eliminate, the requirement of chemical detergents and high labor costs of cleaning. It can also promote the overall efficiency of outdoor optoelectronic devices (e. g. solar cell panels) since dirt accumulation and bacteria growth can be slowed down, even inhibited on such surfaces. In this mini review, the fundamentals and conditions that govern superhydrophobicity and transparency are introduced, followed by the discussion of roughness as the competing factor for superhydrophobicity and transparency. Representative examples of the surface design and fabrication are introduced and future perspectives are shared. This mini review can help the research community better understand such surfaces and further accelerate its development for innovative practical applications.
中文翻译:
关于超疏水和透明表面的迷你评论。
近年来,对自清洁和透明表面进行了广泛研究,以用于智能窗户,太阳能电池板,相机镜头和其他光电设备。自清洁特性可能会延长这些产品的使用寿命,并减少甚至消除对化学清洁剂的需求以及较高的清洁人工成本。由于污垢的积累和细菌的生长可以减慢甚至抑制在这样的表面上,因此它还可以提高室外光电器件(例如太阳能电池板)的整体效率。在本微型综述中,介绍了控制超疏水性和透明性的基本原理和条件,然后讨论了粗糙度作为超疏水性和透明性的竞争因素。介绍了表面设计和制造的代表性示例,并分享了未来的观点。这份简短的综述可以帮助研究界更好地了解此类表面,并进一步加快其在创新性实际应用中的开发。
更新日期:2020-11-16
中文翻译:
关于超疏水和透明表面的迷你评论。
近年来,对自清洁和透明表面进行了广泛研究,以用于智能窗户,太阳能电池板,相机镜头和其他光电设备。自清洁特性可能会延长这些产品的使用寿命,并减少甚至消除对化学清洁剂的需求以及较高的清洁人工成本。由于污垢的积累和细菌的生长可以减慢甚至抑制在这样的表面上,因此它还可以提高室外光电器件(例如太阳能电池板)的整体效率。在本微型综述中,介绍了控制超疏水性和透明性的基本原理和条件,然后讨论了粗糙度作为超疏水性和透明性的竞争因素。介绍了表面设计和制造的代表性示例,并分享了未来的观点。这份简短的综述可以帮助研究界更好地了解此类表面,并进一步加快其在创新性实际应用中的开发。