Superhydrophilic, Antifogging and Antireflecting Nanoparticulate Coating for Solar PV Modules

机译：用于太阳能光伏组件的超亲水，防雾和防反射纳米颗粒涂料

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Superhydrophilic, antifogging, antireflective and highly transparent coating of porous silica nanoparticles is deposited on the protective glass of solar PV module. Silane precursor mixed with air sprayed on the substrate surface by aerosol deposition method. Pressure difference between the plasma chamber and the substrate was tuned by introducing additional amounts of helium resulting in good control over layered thicknesses and refractive indices. Due to the porous nature and graded index of coated film, the transmittance of glass substrate was increased from 91% to 99.2%. Surface topology of coated film is studied by AFM shows excellent antifogging and super-hydrophilic nature attributed to roughness and nano-porosity of coated film. Moreover, the superhydrophilic nature endows these coatings with self-cleaning properties, which can increase the efficiency of solar modules.

机译：多孔二氧化硅纳米粒子的超亲水，防雾，防反射和高度透明的涂层沉积在太阳能PV组件的保护玻璃上。通过气溶胶沉积法将硅烷前驱物与空气混合喷涂在基材表面上。通过引入额外量的氦气来调节等离子体腔室与基板之间的压差，从而实现对层厚和折射率的良好控制。由于涂膜的多孔性和渐变指数，玻璃基板的透射率从91％增加到99.2％。原子力显微镜（AFM）研究了涂膜的表面拓扑，显示出优异的防雾性和超亲水性，这归因于涂膜的粗糙度和纳米孔隙率。此外，超亲水性使这些涂层具有自清洁性能，从而可以提高太阳能电池组件的效率。

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《International Conference on Power Generation Systems and Renewable Energy Technologies》|2018年|1-6|共6页
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Kamran Alam; Saim Saher; Saddam Ali; Muhammad Noman; Affaq Qamar; Muhammad Hamayun;
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aerosols; antireflection coatings; atomic force microscopy; hydrophilicity; hydrophobicity; liquid phase deposition; nanofabrication; nanoparticles; nanophotonics; nanoporous materials; optical films; porosity; protective coatings; refractive index; silicon compounds; s;

机译：气溶胶;减反射涂层;原子力显微镜;亲水性;疏水性;液相沉积;纳米加工;纳米颗粒;纳米光子学;纳米多孔材料;光学膜;孔隙率;保护性涂层;折射率;硅化合物; s;

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1. Antireflection, Superhydrophilic Nano-Porous SiO2 Coating based on Aerosol Impact Spray Deposition Technique for Solar PV Module [J] . Kamran Alam, Saddam Ali, Abdul Saboor, Coatings . 2019,第8期

机译：基于气溶胶冲击喷涂技术的太阳能光伏组件抗反射超亲水纳米多孔SiO2涂层
2. Antireflection, Superhydrophilic Nano-Porous SiO2 Coating based on Aerosol Impact Spray Deposition Technique for Solar PV Module [J] . Kamran Alam, Saddam Ali, Abdul Saboor, Coatings . 2019,第8期

机译：基于气溶胶冲击喷涂技术的太阳能光伏组件抗反射超亲水纳米多孔SiO2涂层
3. Krayden, Dow Corning Solar Solutions' PV Cell and Module Coating [J] . Circuitree . 2010,第6期

机译：道康宁太阳能解决方案公司的Krayden的光伏电池和组件涂层
4. Superhydrophilic, Antifogging and Antireflecting Nanoparticulate Coating for Solar PV Modules [C] . Kamran Alam, Saim Saher, Saddam Ali, International Conference on Power Generation Systems and Renewable Energy Technologies . 2018

机译：太阳能光伏模块的超烯丙基，抗雾和抗反射纳米颗粒涂层
5. Study of Solar Thermophotovoltaic (STPV) Energy Conversion with Selective Metafilm Coatings and GaSb Cell Separated by Glass Microspheres [D] . ?Nayal, Avinash Singh 2020

机译：用玻璃微球分离的选择性梅白涂层和喘气细胞的太阳能蒸发器（STPV）能量转化研究
6. Performance Degradation Analysis of c-Si PV Modules Mounted on a Concrete Slab under Hot-Humid Conditions Using Electroluminescence Scanning Technique for Potential Utilization in Future Solar Roadways [O] . Firoz Khan, Jae Hyun Kim 2019

机译：使用电致发光扫描技术对未来湿热道路潜在利用的热湿条件下安装在混凝土板上的c-Si光伏组件的性能下降分析
7. Antireflection, Superhydrophilic Nano-Porous SiO2 Coating based on Aerosol Impact Spray Deposition Technique for Solar PV Module [O] . Kamran Alam, Saddam Ali, Abdul Saboor, 2019

机译：基于气溶胶冲击喷射沉积技术的抗反射，超水分纳米多孔SiO2涂层太阳能光伏模块
8. Recovery Act: Organic Coatings as Encapsulants for Low Cost, High Performance PV Modules [R] . Poole, J., Benton, S., Hellring, S. 2011

机译：回收法：有机涂料作为低成本，高性能光伏组件的密封剂

Superhydrophilic, Antifogging and Antireflecting Nanoparticulate Coating for Solar PV Modules

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