A facile method of synthesizing size-controlled hollow cyanoacrylate nanoparticles for transparent superhydrophobic/oleophobic surfaces

Matsubayashi, Takeshi; Tenjimbayashi, Mizuki; Manabe, Kengo; Kyung, Kyu Hong; Ding, Bin; Shiratori, Seimei

doi:10.1039/c6ra00493h

Cited by 18 publications

(12 citation statements)

References 47 publications

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“…[27][28][29] Modied nanoparticles have been widely used to prepare transparent coatings as they can provide the rough structure and low surface energy. However, only a small range of nanoparticulate materials can be used in transparent lms as most induce strong reection of visible light.…”

Section: Introductionmentioning

confidence: 99%

Transparent superhydrophobic PTFE films via one-step aerosol assisted chemical vapor deposition

et al. 2017

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In this study, hierarchical micro/nano-structured transparent superhydrophobic polytetrafluoroethylene (PTFE) films showing a water contact angle (CA) of 168 , a water sliding angle (SA) <1 and transmittance to visible light >90% were prepared on glass substrates via aerosol-assisted chemical vapor deposition (AACVD). Scanning electron microscopy showed the morphology to be rough, composed of both micro and nano sized protrusions. Mechanical testing showed that after impingement from 800 drops of 15 mL water (height ¼ 1 m) or 10 g of sand grains (height ¼ 65 cm), the CA of the transparent PTFE surface was still >150 , still demonstrating excellent superhydrophobicity. The films also showed self-cleaning and anti-corrosion properties. This one-step fabrication is a facile way of producing various kinds of transparent superhydrophobic surfaces.

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Section: Introductionmentioning

confidence: 99%

Transparent superhydrophobic PTFE films via one-step aerosol assisted chemical vapor deposition

et al. 2017

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“…Similarly, Matsubayashi et al [69] conducted a fingerprint adhesion test (using a colour difference meter) by applying hollow cyanoacrylate nanoparticles (HCNPs) on bare glass. The nanoparticles were synthesized using supersaturated gas cored instant polymerization (SGCIP) technique which blends Ethyl cyanoacrylate (ECA) and nanobubbles produced by polymerization and a change in gas solubility, respectively.…”

Section: Anti-fingerprint Coatingmentioning

confidence: 99%

Untitled

Olawore

Asafa

Oladosu

et al. 2021

Nano Plus: Sci. Tech. Nanomat.

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Nanoparticles-modified paints have shown huge potentials in a broad range of functionalities like surface protection, antifouling, corrosion resistance, self-cleaning, slip resistance, abrasion resistance among others. Consequently, they have been deployed for several industrial applications including pipelines, buildings, automobiles, electronics, among others. To further enhance their functionalities, paint industries have expended huge resources on research and development of advanced paints that are compatible and appropriate for today's hostile environments. Studies have been conducted on the utilization of degradable biocides such as zinc oxide nanoparticles (ZnONPs), silver nanoparticles (AgNPs), copper nanoparticles (CuNPs), photocatalytic-active nano-titanium dioxide nanoparticles (TiO 2 NPs), and silica dioxide nanoparticles (SiO 2 NPs) as major additives in paints. These additives are designed to offer improved surface protection against microbial, physical, and chemical deteriorations as well as enhanced scratch resistance. However, the addition of nanoparticles to paints is not without its demerits. Nanoparticles can agglomerate within the paint matrix leading to poor surface protection. In addition, the health and safety concerns from human exposure to emissions of nanoparticles must be adequately addressed. A few reported studies on the toxicology of nanoparticles are either short-termed or having variant or inconclusive results. This paper reports a critical assessment of nanoparticles as additives in paints. Extensive characterization of nanoparticle-modified paints is reported while the implications on the environment are also explored. New directions, targeting enhanced functionalities and lower toxicity, are proposed.

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“…Good transparency requires surface roughness lower than 100 nm [39]. It is possible to fabricate a transparent, highly oleophobic, and superhydrophobic coating; however it is much more challenging [40,41]. Amphiphobic coatings are commonly used in many applications, including inter alia TV screens, tablets, solar panels, microfluidics, textiles, automobile, and eye lenses [41,42].…”

Section: Introductionmentioning

confidence: 99%

Laser‐Induced Color Marking of Titanium: A Modeling Study of the Interference Effect and the Impact of Protective Coating

Łęcka

Wójcik

Antończak

2017

Mathematical Problems in Engineering

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Laser-induced color marking of metals, due to numerous advantages, including inter alia the high quality, resolution, durability, and noncontact methodology of surface marking, seems to be attractive for use in various applications. In this method, the resulting color is mainly evident from the interference effect. Therefore, one of the still unsolved problems on titanium is the color change after imposition of an additional layer (fingerprints, grease, etc.). In this paper, a computer simulation based on the theoretical thin layers model was presented. The results of the modeling study revealed that theoretically a thin protective coating of a known refractive index can be applied while still maintaining the target color. In this case, as a protective layer, an amphiphobic coating has been taken into consideration with its ability to resist surface contamination. The study was performed for titanium (grade 2). The model utilizes the real data derived from the spectrophotometer, as well as from the ellipsometry measurements of laser-induced samples.

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A facile method of synthesizing size-controlled hollow cyanoacrylate nanoparticles for transparent superhydrophobic/oleophobic surfaces

Cited by 18 publications

References 47 publications

Transparent superhydrophobic PTFE films via one-step aerosol assisted chemical vapor deposition

Transparent superhydrophobic PTFE films via one-step aerosol assisted chemical vapor deposition

Untitled

Laser‐Induced Color Marking of Titanium: A Modeling Study of the Interference Effect and the Impact of Protective Coating

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