Antifogging and Antireflective Coatings by Spin-LbL Assembly of SiO2 and ZrO2 Nanoparticles

Nanoscience & Nanotechnology-Asia Pub Date : 2018-12-26 DOI:10.2174/2210681208666180111144217

Fusheng Yang, Peng Wang, Xiaoli Yang, Z. Cai

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Abstract

Fogging is a common phenomenon and often causes trouble to people in daily life. Antifogging (AF) and Antireflective (AR) coatings can be effectively used to provide resistance to fogging and maintain the optical clarity in day-to-day life. For this reason, they are useful for maintaining optical clarity in optical instrument and display devices. Antifogging and antireflective coatings were fabricated using a Spin-LbL assembly process, and this process is driven by electrostatic interactions between the positively charged ZrO2 NPs and negatively charged SiO2 NPs. The textured surfaces and void fraction can signicantly enhance the wettability of surfaces with water. And this may result in enhanced AF properties. In the Water contact angles (WCA) test, the ZrO2/SiO2 and SiO2/ZrO2 coatings were all superhydrophilic (almost 0°, less than 0.04 s). In the boiling test and low temperature AF test, the ZrO2/SiO2 and SiO2/ZrO2 samples showed excellent AF properties. Antifogging and antireflective coatings were fabricated via Spin-LbL assembly of the positively charged ZrO2 NPs and negatively charged SiO2 NPs followed by calcination. The resultant coatings showed excellent AF properties due to the superhydrophilicity of the coating, exhibited excellent AR properties due to the low refractive index coating and an appropriate coating thickness, and showed excellent superhydrophilic properties due to a nano-roughness structure.

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SiO2和ZrO2纳米颗粒自旋lbl组装的防雾和防反射涂层

雾霾是一种常见的现象，经常给人们的日常生活带来困扰。防雾(AF)和抗反射(AR)涂层可以有效地用于提供抗雾性和保持日常生活中的光学清晰度。因此，它们对于保持光学仪器和显示设备的光学清晰度非常有用。采用Spin-LbL组装工艺制备了防雾和防反射涂层，该工艺是由带正电荷的ZrO2 NPs和带负电荷的SiO2 NPs之间的静电相互作用驱动的。织构表面和空隙率能显著提高表面的润湿性。这可能会增强自动对焦特性。在水接触角(WCA)测试中，ZrO2/SiO2和SiO2/ZrO2涂层均为超亲水性(接近0°，小于0.04 s)，在沸腾试验和低温AF试验中，ZrO2/SiO2和SiO2/ZrO2样品均表现出优异的AF性能。将带正电荷的ZrO2 NPs和带负电荷的SiO2 NPs进行自旋- lbl组装，然后煅烧制备防雾和防反射涂层。由于涂层的超亲水性，涂层表现出优异的AF性能;由于涂层的低折射率和适当的涂层厚度，涂层表现出优异的ar性能;由于纳米粗糙度结构，涂层表现出优异的超亲水性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Nanoscience & Nanotechnology-Asia

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