Robust Superhydrophobic Surface with Controlled Adhesion: In Situ Growth Depending on Its Bulk Phase Composition and Environment

Chen, Kai; Hu, Junyi; Wang, Cao-Yu; Wu, Mingpeng; Ding, Cong; Gu, Jiangjiang; Zhang, Geng; Zheng, Xuejun; Cao, Fuyang

doi:10.1002/admi.201800444

Cited by 2 publications

(1 citation statement)

References 64 publications

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“…Thus, wetting stabilities on micro-/nanostructured surfaces are urgently needed to be improved for practical applications. At present, researchers have proposed a variety of methods for the fabrication of hierarchical micro-/nanostructured surfaces with certain wetting stabilities, such as roughening, etching, laser irradiation, photofluidization, photolithography, chemical vapor deposition, self-assembly, and in situ growth . Precise micro-/nanostructure arrays or random patterns fabricated using the aforementioned technologies were achieved on solid surfaces.…”

Section: Introductionmentioning

confidence: 99%

Fabrication of Micro-/Submicro-/Nanostructured Polypropylene/Graphene Superhydrophobic Surfaces with Extreme Dynamic Pressure Resistance Assisted by Single Hierarchically Porous Anodic Aluminum Oxide Template

et al. 2020

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By applying a three-step anodic oxidation method followed by etching and pore widening treatment, etched micro-/submicroscale pits of ∼2 μm and ∼230 nm as well as anodized nanopores of ∼70 nm are combined to form hierarchically porous anodic aluminum oxide (HP-AAO) templates. Hierarchical micro-/submicro-/nanostructured polypropylene/graphene (HMSNS-PP/GP) superhydrophobic surfaces are laminated by a single HP-AAO template, exhibiting the similar arrangement, size, and shape with hierarchical papillae on lotus leaf surfaces. As expected, such a lotus-inspired HMSNS-PP/GP surface has an extremely small roll-off angle of ∼0.5° and a large contact angle of 155.0°, exhibiting high-efficiency self-cleaning characteristics. The HMSNS-PP/GP surface is endowed with static and dynamic wetting stabilities, which are reflected in immersion and impacting tests. After immersion, the HMSNS-PP/GP replica remains fully spotless accompanied with the ability to work under a hydrostatic pressure of ∼3626 Pa for at least 60 min. After impact, the maximum height of bounced droplets is up to 12.4 mm (i.e., 5.3 times the diameter of the droplet) at a Weber number of ∼32.12.

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Section: Introductionmentioning

confidence: 99%

Fabrication of Micro-/Submicro-/Nanostructured Polypropylene/Graphene Superhydrophobic Surfaces with Extreme Dynamic Pressure Resistance Assisted by Single Hierarchically Porous Anodic Aluminum Oxide Template

et al. 2020

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Chelation Assembly of Cellulose Nanohydrogel onto Flower-Like Structured Foam with Underwater Superoleophobicity for Highly Efficient Oil–Water Separation

Wan

Lin

Chang

et al. 2021

NANO

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Currently, with the increasingly serious pollution problem of oily wastewater, it is urgent to develop advanced materials and methods. In this work, a Fe(III)-CMC@Ni(OH)2@Ni composite foam with superhydrophilic and underwater superoleophobicity was fabricated by an in situ growth of flower-like Ni(OH)2 nanoparticles and chelated assembly of Fe(III)-CMC nanohydrogel via a layer-by-layer self assembly using Fe[Formula: see text] ion and carboxymethyl cellulose (CMC). The composite foam could separate various oil/water mixtures and exhibited excellent efficiency over 99%. This foam possessed ultrahigh water flux (220000[Formula: see text]L m[Formula: see text] h[Formula: see text] and better resistant to penetration pressure (1.3[Formula: see text]kPa). After 30 cycles, the oil–water separation performance reduced only 0.5%, but the foam structure was still stable that guarantees a better lifetime. Besides, this composite foam showed anti-fouling, unique durability and excellent corrosion resistance performance. Taking into account all good properties, Fe(III)-CMC@Ni(OH)2@Ni composite foam was expected to be a potential candidate for responding to all kinds of complex oily wastewater conditions.

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Robust Superhydrophobic Surface with Controlled Adhesion: In Situ Growth Depending on Its Bulk Phase Composition and Environment

Cited by 2 publications

References 64 publications

Fabrication of Micro-/Submicro-/Nanostructured Polypropylene/Graphene Superhydrophobic Surfaces with Extreme Dynamic Pressure Resistance Assisted by Single Hierarchically Porous Anodic Aluminum Oxide Template

Fabrication of Micro-/Submicro-/Nanostructured Polypropylene/Graphene Superhydrophobic Surfaces with Extreme Dynamic Pressure Resistance Assisted by Single Hierarchically Porous Anodic Aluminum Oxide Template

Chelation Assembly of Cellulose Nanohydrogel onto Flower-Like Structured Foam with Underwater Superoleophobicity for Highly Efficient Oil–Water Separation

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