Large-Scale Fabrication of Wettability-Controllable Coatings for Optimizing Condensate Transfer Ability

Wang, Shanlin; Zhao, Xiaofeng; Teng, Yan; Chen, Xintao; Ahuja, Rajeev

doi:10.1021/acs.langmuir.0c03544

Cited by 4 publications

(1 citation statement)

References 39 publications

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“…Superhydrophobic and superamphiphobic fabrics are one of the important branches of superhydrophobic surfaces, − as self-cleaning fabrics are highly desirable for human beings. In addition to being self-cleaning, they have wide potential applications in preventing blood loss, reducing bacteria attachment, oil/water separation, chemical shielding, etc. − Different from superhydrophobic fabrics, superamphiphobic fabrics have high repellency to both oil and water, which further extends their applications. − So far, there have been many superamphiphobic fabrics with excellent superamphiphobicity. , In addition, some representative preparation methods such as dip-coating, chemical vapor deposition, and surface grafting have been developed for fabricating superamphiphobic fabrics. − However, there are still some issues hindering real world applications of superamphiphobic fabrics: (i) low repellency to hot liquids, (ii) complicated and nonaqueous preparation methods, and (iii) low durability.…”

Section: Introductionmentioning

confidence: 99%

Robust Superamphiphobic Fabrics with Excellent Hot Liquid Repellency and Hot Water Vapor Resistance

et al. 2022

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Superamphiphobic surfaces progress rapidly but suffer from the issues of low repellency to hot liquids, complicated and nonaqueous preparation methods, and low durability. Here, a simple waterborne approach is developed to fabricate robust superamphiphobic fabrics with excellent hot liquid repellency and hot water vapor resistance. First, a perfluorodecyl polysiloxane (FD-POS) aqueous suspension was prepared by hydrolytic cocondensation of (3-glycidyloxy propyl)trimethoxysilane and 1H,1H,2H,2H-perfluorodecyltriethoxysilane with SiO2 particles. Then, the superamphiphobic fabrics were fabricated by dipping polyester fabrics in the suspension, which were then cured. The fabrics show excellent superamphiphobicity owing to the combination of the hierarchical micro-/nanostructure and FD-POS with very low surface energy. The superamphiphobic fabrics feature excellent hot liquid repellency even for a large volume of 130.0 °C soybean oil and condensed small droplets from ∼90.0 °C water vapor. This is attributed to its high superamphiphobicity, excellent hot water vapor resistance, and outstanding thermal durability. In addition, the superamphiphobic fabrics exhibit high mechanical and chemical durability against washing, abrasion, and immersion in corrosive or organic liquids. Thus, hot liquid repellent superamphiphobic fabrics may find applications in various fields such as antiadhesion of various hot liquids and in efficiently preventing scalding.

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Section: Introductionmentioning

confidence: 99%

Robust Superamphiphobic Fabrics with Excellent Hot Liquid Repellency and Hot Water Vapor Resistance

et al. 2022

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Preparation and anti-corrosion performances of grass-like microstructured superhydrophobic surface on copper via solution-immersion

et al. 2022

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Enhancement of Condensation Heat Transfer, Anti-Frosting and Water Harvesting by Hybrid Wettability Coating

Chen

et al. 2021

NANO

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Hydrophilic–hydrophobic hybrid wettability structures, inspired by desert beetles, have been widely designed to enhance the dewdrops’ migration under subcooled or/and high-humidity environment. However, it is still a challenge to regulate the graded distribution of the hydrophilic micro-regions for condensation applications. In this paper, we design a simple spray method to prepare the superamphiphilic–superamphiphobic hybrid wettability coatings by controlling the mass ratio (MR) of superamphiphobic SiO2 nano-powder and superamphiphilic gypsum micro-powder. We compare the macroscopical wettability, condensation heat transfer efficiency, frosting delayed time and water harvesting rate to demonstrate the unique advantage of hybrid wettability structures. The results show that the condensation heat transfer efficiency, frosting delayed time and water harvesting rate can be respectively promoted to about 131.50% [Formula: see text], 134.74% [Formula: see text] and 135.62% [Formula: see text], although their macroscopical wettability will gradually reduce with the MR increase. This work will provide substantial insights into the fabrication of efficient superhydrophilic–superhydrophobic hybrid wettability surfaces for condensation heat transfer, anti-frosting and water harvesting applications.

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Large-Scale Fabrication of Wettability-Controllable Coatings for Optimizing Condensate Transfer Ability

Cited by 4 publications

References 39 publications

Robust Superamphiphobic Fabrics with Excellent Hot Liquid Repellency and Hot Water Vapor Resistance

Robust Superamphiphobic Fabrics with Excellent Hot Liquid Repellency and Hot Water Vapor Resistance

Preparation and anti-corrosion performances of grass-like microstructured superhydrophobic surface on copper via solution-immersion

Enhancement of Condensation Heat Transfer, Anti-Frosting and Water Harvesting by Hybrid Wettability Coating

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