One-Step Preparation of Robust Superhydrophobic Foam for Oil/Water Separation by Pulse Electrodeposition

Zhang, Yonghui; Liu, Jiangwen; Ouyang, Ligeng; Li, Jiaming; Xie, Guie; Yan, Yinyin; Weng, Can

doi:10.1021/acs.langmuir.1c00640

Cited by 16 publications

(8 citation statements)

References 46 publications

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“…When DC voltage is applied to the electrodes, part of stearic acid combines with free Ce 3+ ions near the cathode to form cerium stearate complex and hydrogen ions (H + ). With the progress of electrodeposition, the concentration of free hydrogen ions around the cathode plate increases, some of which obtain electrons to form hydrogen gas, while cerium stearate complex is deposited on the surface of the cathode filter screen [17,31]. The reaction process is described by the following formulae:…”

Section: Formation Mechanism Of Coatingmentioning

confidence: 99%

“…Electrodeposition method has the advantages of low cost, good reproducibility, easy control, fast, and efficient [15,16]. In particular, one-step electrodeposition can generate low surface energy materials while constructing rough structure, so as to quickly prepare superhydrophobic films on the substrate surface [17][18][19]. Compared with postdeposition modification, it not only simplifies the preparation process but also makes the modification of low surface energy materials more compact and uniform.…”

Section: Introductionmentioning

confidence: 99%

“…Compared with postdeposition modification, it not only simplifies the preparation process but also makes the modification of low surface energy materials more compact and uniform. Zhang et al [17] prepared fluoride-free functionalized superhydrophobic 3D porous copper foam by one-step pulse electrochemical deposition method, showing excellent corrosion resistance, mechanical strength, and oil/water separation performance. Yang et al [20] prepared nickel corrosionresistant superhydrophobic coating on copper by direct current electrodeposition.…”

Section: Introductionmentioning

confidence: 99%

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High Efficient Construction and Comprehensive Evaluation of Superhydrophobic Filter Screen Coatings

Hou

Meng

Chen

et al. 2023

Journal of Nanomaterials

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The preparation of environment-friendly and efficient superhydrophobic filter screen still faces great challenges. Herein, a compact, solid cerium stearate superhydrophobic-coated stainless steel mesh (SSSM) was prepared by a simple, efficient, and environmentally friendly one-step electrodeposition process. Fourier transform infrared (FTIR) spectroscopy, energy-dispersive X-ray spectroscopy (EDS), scanning electron microscopy (SEM), and contact angle measurement were used to characterize the surface coating (composition, morphology, and contact angle) of SSSM. The results show that the SSSM surface is a dense mastoid cerium stearate micronanostructure coating, and its static contact angle with water can reach 162.73°. In addition, it has excellent self-cleaning performance for conventional simulated pollutants, and the contact angle can still reach 161° after 28 days of storage. In the wear resistance and corrosion resistance tests, the contact angle can still be kept above 150° after 600 mm abrasion under the load of 19.6 kPa, the corrosion current of SSSM is reduced by two orders of magnitude, and its corrosion inhibition efficiency reaches 99.74%. In addition, the oil/water separation performance of SSSM is also very good, and the separation efficiency for different oil/water mixtures exceeds 97%. This study will provide important data support and method reference for the preparation of metal anticorrosion superhydrophobic material coating and the development of environment-friendly and efficient oil–water separation materials.

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Section: Formation Mechanism Of Coatingmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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High Efficient Construction and Comprehensive Evaluation of Superhydrophobic Filter Screen Coatings

Hou

Meng

Chen

et al. 2023

Journal of Nanomaterials

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“…The diversification of fillers, including zero-dimensional particles (e.g., copper) and two-dimensional sheets (e.g., graphene (GR)), can reinforce wetting while conferring antifouling and conductive propertiesenabling a broad spectrum of applicability. For example, compared to other one-dimensional (1D) and two-dimensional (2D) materials, 3D porous polymeric materials with special wettability (i.e., superhydrophobic and superoleophilic) have attracted enormous attention for use in oil–water separation applications owing to their high porosity, oil/organic solvent adsorption capacity, and separation efficiency (SE). , To date, many methods of fabricating these oil-adsorbing materials have been developed, including electrospinning, spray coating, dip-coating, hydrothermal, electrochemical, chemical vapor deposition, separation, in situ polymerization, and high-internal-phase emulsions methods . However, most of these methods require harsh conditions, complex fabrication processes, special instruments, hazardous solvents, high energy consumption, poor recyclability, low absorption capacity, and poor separation efficacy, which increase production costs and limit their practical applications.…”

Section: Introductionmentioning

confidence: 99%

Superhydrophobic and Conductive Foams with Antifouling and Oil–Water Separation Properties

Ozkan

Garren

Manuel

et al. 2023

ACS Appl. Mater. Interfaces

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Hybrid organic−inorganic materials are attracting enormous interest in materials science due to the combination of multiple advantageous properties of both organic and inorganic components. Taking advantage of a simple, scalable, solvent-free hard-sacrificial method, we report the successful fabrication of three-dimensional hybrid porous foams by integrating two types of fillers into a poly(dimethylsiloxane) (PDMS) framework. These fillers consist of hydrophobic electrically conductive graphene (GR) nanoplatelets and hydrophobic bactericidal copper (Cu) microparticles. The fillers were utilized to create the hierarchical rough structure with low-surface-energy properties on the PDMS foam surfaces, leading to remarkable superhydrophobicity/ superoleophilicity with contact angles of 158 and 0°for water and oil, respectively. The three-dimensional interconnected porous foam structures facilitated high oil adsorption capacity and excellent reusability as well as highly efficient oil/organic solvent−water separation in turbulent, corrosive, and saline environments. Moreover, the introduction of the fillers led to a significant improvement in the electrical conductivity and biofouling resistance (vs whole blood, fibrinogen, platelet cells, and Escherichia coli) of the foams. We envision that the developed composite strategy will pave a facile, scalable, and effective way for fabricating novel multifunctional hybrid materials with ideal properties that may find potential use in a broad range of biomedical, energy, and environmental applications.

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“…In recent years, the environmental problems that arose from oil spills and oily wastewater have become increasingly serious. It should be of great significance to find efficient ways for treatment of oily wastewaters. − Traditional separation methods including centrifugation, adsorption, skimming, and microbial degradation have been used in separation of oil/water mixtures. However, they suffer from some drawbacks such as inefficiency with the generation of secondary pollutions.…”

Section: Introductionmentioning

confidence: 99%

Smart Hierarchical Zeolitic Imidazolate Framework-Coated Stainless Steel Meshes with Switchable Wettability for Oil/Water Separation

Liu

Zhang

et al. 2022

Langmuir

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SSM with a hierarchical micro/nanoscale structure exhibited outstanding switchable wettability between underwater superoleophobicity and underoil superhydrophobicity upon respective prewetting using water and oil without additional external stimuli. It possessed excellent separation performances and stabilities with respect to various types of oil/water mixtures. The switchable wettability mechanism was analyzed and elucidated in detail.

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One-Step Preparation of Robust Superhydrophobic Foam for Oil/Water Separation by Pulse Electrodeposition

Cited by 16 publications

References 46 publications

High Efficient Construction and Comprehensive Evaluation of Superhydrophobic Filter Screen Coatings

High Efficient Construction and Comprehensive Evaluation of Superhydrophobic Filter Screen Coatings

Superhydrophobic and Conductive Foams with Antifouling and Oil–Water Separation Properties

Smart Hierarchical Zeolitic Imidazolate Framework-Coated Stainless Steel Meshes with Switchable Wettability for Oil/Water Separation

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