Preparation of Fluorine‐Free and Superhydrophobic SiO<sub>2</sub> Film with High Transmittance

Wang, Yong; Liu, Juncheng; Nie, Lei

doi:10.1002/slct.202001795

Cited by 5 publications

(2 citation statements)

References 47 publications

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“…They degrade into toxic and ecologically persistent molecules, such as perfluorooctanoic acid (PFOA) and perfluorooctanesulfonic acid (PFOS). Most literature on environmentally friendly STFs focused on inorganic-organic hybrid 185,219,[232][233][234][235][236][237][238] and organic 239 materials. The employed dip-coating process involved combining different surface texture fabrication strategies 174 and less environmentally damaging chemical materials.…”

Section: Eco-friendly Superhydrophobicitymentioning

confidence: 99%

Super‐liquid‐repellent thin film materials for low temperature latent heat thermal energy storage: A comprehensive review of materials for dip‐coating

Muhumuza,

Eames

2024

Energy Storage

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When discharging latent heat thermal energy storage (LHTES) systems, performance is influenced by the formation and adherence of a solid layer of phase change material (PCM) on heat eXchange (HX) surfaces. Super‐liquid‐repellent thin films (STFs) may be able to reduce solidifying PCM adhesion on HX surfaces during discharging, delay PCM solidification to lower temperatures, and by modifying nucleation sites potentially enable long‐term seasonal thermal storage. Techniques employed previously to fabricate sintered polymeric STF coatings include chemical vapour deposition, dip‐coating, spray‐coating, spin‐coating, layer‐by‐layer (LbL) assembly, sol‐gel, anodizing, electrodeposition, electrospinning, so on. Dip‐coating is considered attractive for fabricating thin films on simple and complex surface geometries due to process maturity, scalability, flexibility and cost‐effectiveness. To identify suitable materials for preparing STFs on metal HX surfaces using the dip‐coating process, more than 200 journal articles published in English during the period 2010 to 2022 were reviewed and the potential role of STFs in LHTES applications was assessed. The review identified key areas and applications stimulating STF material developments and formulations. The dip‐coating of potential STF materials was classified under three major themes driving current research and development (R&D) activities, that is, high performance thin films, eco‐friendly thin films and fundamental research formulations. This review provides a platform from which to develop coatings and HX systems to enable the cost‐effective implementation of STFs for improved heat transfer in future mobile/stationery LHTES systems.

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Section: Eco-friendly Superhydrophobicitymentioning

confidence: 99%

Super‐liquid‐repellent thin film materials for low temperature latent heat thermal energy storage: A comprehensive review of materials for dip‐coating

Muhumuza,

Eames

2024

Energy Storage

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“…In particular, the inorganic micro/nanoparticles have been used to create the roughness structure for superhydrobicity preparation, such as TiO 2 [ 16 ], SiO 2 [ 17 ], Fe 3 O 4 [ 18 ], ZnO [ 19 ], and carbon nanotubes [ 20 ]. ZnO nanoparticles have significantly attracted interests due to their low cost, accessibility, and stability in application [ 21 ].…”

Section: Introductionmentioning

confidence: 99%

Fabrication of Durable Superhydrophobic Surface for Versatile Oil/Water Separation Based on HDTMS Modified PPy/ZnO

et al. 2022

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Superhydrophobic materials have been widely applied in rapid removal and collection of oils from oil/water mixtures for increasing damage to environment and human beings caused by oil-contaminated wastewater and oil spills. Herein, superhydrophobic materials were fabricated by a novel polypyrrole (PPy)/ZnO coating followed by hexadecyltrimethoxysilane (HDTMS) modification for versatile oil/water separation with high environmental and excellent reusability. The prepared superhydrophobic surfaces exhibited water contact angle (WCA) greater than 150° and SA less than 5°. The superhydrophobic fabric could be applied for separation of heavy oil or light oil/water mixtures and emulsions with the separation efficiencies above 98%. The coated fabric also realized highly efficient separation with harsh environmental solutions, such as acid, alkali, salt, and hot water. The superhydrophobic fabric still remained, even after 80 cycles of separation and 12 months of storage in air, proving excellent durability. These novel superhydrophobic materials have indicated great development potentials for oil/water separation in practical applications.

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Anti-Reflective superhydrophobic coatings with excellent durable and Self-cleaning properties for solar cells

Wang

Yan

Zeng

et al. 2022

Applied Surface Science

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Preparation of Fluorine‐Free and Superhydrophobic SiO₂ Film with High Transmittance

Cited by 5 publications

References 47 publications

Super‐liquid‐repellent thin film materials for low temperature latent heat thermal energy storage: A comprehensive review of materials for dip‐coating

Super‐liquid‐repellent thin film materials for low temperature latent heat thermal energy storage: A comprehensive review of materials for dip‐coating

Fabrication of Durable Superhydrophobic Surface for Versatile Oil/Water Separation Based on HDTMS Modified PPy/ZnO

Anti-Reflective superhydrophobic coatings with excellent durable and Self-cleaning properties for solar cells

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Preparation of Fluorine‐Free and Superhydrophobic SiO2 Film with High Transmittance

Cited by 5 publications

References 47 publications

Super‐liquid‐repellent thin film materials for low temperature latent heat thermal energy storage: A comprehensive review of materials for dip‐coating

Super‐liquid‐repellent thin film materials for low temperature latent heat thermal energy storage: A comprehensive review of materials for dip‐coating

Fabrication of Durable Superhydrophobic Surface for Versatile Oil/Water Separation Based on HDTMS Modified PPy/ZnO

Anti-Reflective superhydrophobic coatings with excellent durable and Self-cleaning properties for solar cells

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Product

Resources

About

Preparation of Fluorine‐Free and Superhydrophobic SiO₂ Film with High Transmittance