Design of Highly Oleophobic Cellulose Surfaces from Structured Silicon Templates

Aulin, Christian; Yun, Sukchang; Wågberg, Lars; Lindström, Tom

doi:10.1021/am900394y

Cited by 81 publications

(58 citation statements)

References 60 publications

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“…In the Wenzel regime (Fig. 2b), the difference of the measured  CA from the 'true' contact angle of a flat surface ( F ) was described as follows: 40 where R is the ratio between the actual surface area of the rough surface and the apparent area. In this regime, surface roughness can promote either wettability ( CA < 90°) or non-wettability ( CA > 90°), depending on the chemical property of the surface.…”

Section: Static Contact Anglementioning

confidence: 99%

“…26 27 demonstrated that superamphiphobic surface could be obtained perfluorosilanerendered TiO 2 /single-walled carbon nanotube composite coatings. Interestingly, the wetting ability of such coatings could be tuned from superoleophobic to superoleophilic via ultraviolet 40 irradiation. Moreover, by controlling the dose of UV illumination, superphobicity and superphilicity can exist on the same surface for probing liquids with different surface tensions.…”

Section: Functionalization With Nanoparticles (Np)mentioning

confidence: 99%

“…38 Glass can be 10 tailored by ion etching, and subsequently chemical etching in aqueous HF. 39 Besides the etching techniques discussed above, other etching methods such as plasma etching 40 and water etching 41 can also be applied, depending on the chemical property of the substrate. …”

Section: Etchingmentioning

confidence: 99%

“…35 Scale bar = 20 m. However, it remains a challenge to create superoleophobic surfaces that resist wetting for organic liquids because of their 40 low surface tensions, for example, 23.8 mN•m -1 for decane, which are much lower than that of water (72.3 mN•m -1 ). To the best of our knowledge, superoleophobic surface was first developed through the design of re-entrant surface curvature, in conjunction with chemical composition and roughened texture 45 surface, by Tuteja et al in 2007.…”

Section: Introductionmentioning

confidence: 99%

“…A syringe pump is used to generate a water droplet on the substrate, and to control the rate of water pumping and suction through the needle to 40 perform the advancing and receding, respectively. After the dropforming step, water is continuously and slowly pumped into (or sucked from) the droplet at a rate smaller than 0.3 ml•min −1 and  Adv was recorded simultaneously by a frame grabber via a solid state charge coupled device camera (Fig.…”

mentioning

confidence: 99%

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Superamphiphobic surfaces

2014

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Superamphiphobicity is an effect where surface roughness and surface chemistry combine to generate surfaces which are both superhydrophobic and superoleophobic, i.e., contact angles (yCA) greater than 1501 along with low contact angle hysteresis (CAH) not only towards probing water but also for low-surface-tension 'oils'. In this review, we summarize the research on superamphiphobic surfaces, including the characterization of superamphiphobicity, different techniques towards the fabrication of surface roughness and surface modification with low-surface-energy materials as well as their functional applications. Superamphiphobicity is an effect where surface roughness and surface chemistry combine to generate 5 surfaces which are both superhydrophobic and superoleophobic, i.e., contact angles ( CA ) greater than 150° along with low contact angle hysteresis (CAH) not only towards probing water but also for lowsurface-tension 'oils'. In this tutorial review, we summarize the research on superamphiphobic surfaces, including the characterization of superamphiphobicity, different techniques towards the fabrication of surface roughness and surface modification with low-surface-energy materials as well as their functional 10 applications.

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Section: Static Contact Anglementioning

confidence: 99%

Section: Functionalization With Nanoparticles (Np)mentioning

confidence: 99%

Section: Etchingmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

mentioning

confidence: 99%

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Superamphiphobic surfaces

2014

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A Waterborne Coating System for Preparing Robust, Self‐healing, Superamphiphobic Surfaces

Zhou

Wang

Niu

et al. 2017

Adv Funct Materials

301

179

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Existing coating systems for preparing superamphiphobic surfaces are predominantly confined into small-scale uses due to the heavy use of organic solvents. Waterborne coating treatment is highly desirable for the high safety, low cost, and non-environmental impact, but remains difficult to develop due to the problems in forming durable, homogeneous coating from an aqueous dispersion of amphiphobic substances. In this study, we have proved that lyophobic nanoparticles, fluorinated alkyl silane (FAS), and fluorocarbon surfactant can form a stable dispersion in water, suitable for preparing durable superamphiphobic surfaces on various solid This article is protected by copyright. All rights reserved. 2 substrates. A series of substrates including fabrics, sponge, wood, glass, and metal, after being coated with this ternary coating system show superamphiphobicity with low contact angle hysteresis. The coating is durable enough against physical abrasion, repeated washing, boiling in water, and strong acid/base attacks. Benefiting from FAS, the coating also has a self-healing ability against both physical and chemical damages. The unexpected stability of the ternary dispersion is a result of the synergistic interaction of the three ingredients. Results from this study may promote the wide development of safe, and cost-efficient superamphiphobic techniques for diverse applications.Received: ((will be filled in by the editorial staff))Revised: ((will be filled in by the editorial staff)) Published online: ((will be filled in by the editorial staff))

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Moldable Superhydrophobic Surfaces

Costa

Dencheva

Caridade

et al. 2016

Adv Materials Inter

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Moldable superhydrophobic surfaces are produced by freely covering a solid surface with specifically designed microcapsules. Owing to the presence of Fe‐particles within the former microcapsules, they can be temporarily fixed on different substrates using a permanent magnet. Such systems are prospective candidates for the fabrication of water/oil repellent surfaces, liquid marbles, or microfluidic channels and as templates for microspheres fabrication.

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Design of Highly Oleophobic Cellulose Surfaces from Structured Silicon Templates

Cited by 81 publications

References 60 publications

Superamphiphobic surfaces

Superamphiphobic surfaces

A Waterborne Coating System for Preparing Robust, Self‐healing, Superamphiphobic Surfaces

Moldable Superhydrophobic Surfaces

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