Micro-Nano Hierarchical Dendritic Structures for Droplet Curve Manipulation: Implications for Microfluidic Devices

Wang, Ning; Wang, Qing; Xu, Shuping; Qu, Longyue; Li, Xiaodong

doi:10.1021/acsanm.0c00990

Cited by 19 publications

(5 citation statements)

References 43 publications

(66 reference statements)

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“…Superhydrophobic surfaces have aroused a lot of interest because of their importance in fundamental science and industrial applications. Superhydrophobic surfaces have a variety of applications such as oil–water separation 3 , anti-icing 4 , self-cleaning 5 , corrosion resistance 6 , drag reduction 7 , sensors 8 , solar cells 9 , biomedical 10 , microfluidic devices 11 , and antifouling technologies 12 . Different superhydrophobic coatings with remarkable water repellency can be created by enhancing the surface roughness, which is the first requirement for superhydrophobicity and lowering the surface energy, which is the second requirement for superhydrophobicity 13 .…”

Section: Introductionmentioning

confidence: 99%

Fabrication of eco-friendly graphene-based superhydrophobic coating on steel substrate and its corrosion resistance, chemical and mechanical stability

Mohamed

Ezzat

Abdel‐Gaber

2022

Sci Rep

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Superhydrophobic coatings were successfully fabricated on steel substrates using potentiostatic electrodeposition of Ni and Ni-graphene, Ni-G, coatings followed by immersion in an ethanolic solution of stearic acid, SA. Rice straw, an environmentally friendly biomass resource, was used to synthesize high-quality graphene. The Raman spectra proved the high quality of the produced graphene. The Fourier transform infrared spectroscopy, FTIR, results showed that the Ni coating grafted with stearic acid, Ni-SA, and the Ni-G composite grafted with stearic acid, Ni-G-SA, were successfully deposited on the steel substrate. The scanning electron microscope, SEM, results showed that the prepared superhydrophobic coatings exhibit micro-nano structures. The wettability results revealed that the values of contact angles, CAs, for Ni-SA and Ni-G-SA coatings are 155.7° and 161.4°, while the values of sliding angles, SAs, for both coatings are 4.0° and 1.0°, respectively. The corrosion resistance, chemical stability, and mechanical abrasion resistance of the Ni-G-SA coating were found to be greater than those of the Ni-SA coating.

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Section: Introductionmentioning

confidence: 99%

Fabrication of eco-friendly graphene-based superhydrophobic coating on steel substrate and its corrosion resistance, chemical and mechanical stability

Mohamed

Ezzat

Abdel‐Gaber

2022

Sci Rep

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“…Inspired by the Nepenthes pitcher plant, which uses micro/nanostructures to lock lubricants on the peristome of Nepenthes to catch insects, Aizenberg et al reported the fabrication of a slippery liquid-infused porous surfaces (SLIPS) with excellent properties such as enduring liquid repellency, self-healing, and pressure tolerance. − Different from the architecture of a superhydrophobic surface, a defect-free and stable “slippery” interface was formed on the SLIPS by infusing a lubricant on the micro/nanostructure of peristome. SLIPS infused with a low surface energy lubricant showed hydrophobicity in air but aerophilicity in aqueous solution .…”

Section: Introductionmentioning

confidence: 99%

Efficient Bubble Transport on Bioinspired Topological Ultraslippery Surfaces

Zhuang

Yang

Dai

2021

ACS Appl. Mater. Interfaces

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Slippery liquid-infused porous surfaces (SLIPS) with micro-/nanostructures inspired by the Nepenthes pitcher plant exhibit excellent characteristics in terms of liquid repellency, selfhealing, pressure tolerance, and so forth. In particular, stable bubble transport on SLIPS can be achieved when the surface is submerged in water. However, more precise and sophisticated bubble manipulations on SLIPS still remain challenging. In this research, a three-dimensional topological SLIPS combined with a submillimeter rice leaf-like groove array is fabricated to guide the underwater bubble motion precisely. The dynamic behavior and wetting state of bubbles on SLIPS were investigated experimentally. Furthermore, topological SLIPS with different geometric textures were designed and created for sophisticated bubble manipulations, such as fast bubble directional transport and collection. The results indicated that a lubricant with low surface tension and low viscosity could improve the adhesion force to bubbles and the transport velocity of bubbles, simultaneously. The current findings are helpful to deepen the cognition of interaction between bubbles and SLIPS and to promote their wide applications in the field of smart bubble manipulation and catalytic chemistry.

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“…[ 5 ] When contact angles are less than 90°, surfaces can be wetted by liquid, which are hydrophilic. [ 6 ] When contact angles are less than 10°, surfaces are completely wetted by liquid, which are superhydrophilic. When contact angles are between 90° and 150°, surfaces are not easily to be wetted by liquid, which are hydrophobic.…”

Section: Introductionmentioning

confidence: 99%

A Review on Applications of Superhydrophobic Materials in Civil Engineering

Wang

Qing

2021

Adv Eng Mater

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Superhydrophobic (SHPB) materials have attracted a lot of attention in civil engineering due to their unique wettability in recent years. The SHPB characteristics pave up a new way for the applications of SHPB materials in civil engineering. In this review, the applications research progress of SHPB materials in various fields of civil engineering is summarized. The waterproofing, self‐cleaning, anticorrosion, anti‐icing, and antifogging applications of SHPB materials in architectural engineering are discussed. The applications of SHPB materials in road and bridge engineering such as anti‐icing and antiskidding are listed. The applications of SHPB materials in heating and ventilation engineering are ranged from anticondensation, antifrosting to dust removal. The anticorrosion and antibiofouling applications of SHPB materials in structural engineering in marine environment are presented. The key problem of insufficient mechanical and chemical durability of SHPB materials when applied in civil engineering is pointed out, and the application trend of SHPB materials in civil engineering is prospected. Finally, based on the detailed discussion of the applications of SHPB materials in civil engineering, a brief summary is proposed. It is expected that SHPB materials can be widely and systematically applied in civil engineering, making important contributions to multifunctional development of civil engineering in the future.

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Micro-Nano Hierarchical Dendritic Structures for Droplet Curve Manipulation: Implications for Microfluidic Devices

Cited by 19 publications

References 43 publications

Fabrication of eco-friendly graphene-based superhydrophobic coating on steel substrate and its corrosion resistance, chemical and mechanical stability

Fabrication of eco-friendly graphene-based superhydrophobic coating on steel substrate and its corrosion resistance, chemical and mechanical stability

Efficient Bubble Transport on Bioinspired Topological Ultraslippery Surfaces

A Review on Applications of Superhydrophobic Materials in Civil Engineering

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