Facile fabrication of multi superlyophobic nano soil coated-mesh surface with excellent corrosion resistance for efficient immiscible liquids separation

A novel strategy for spraying nanosized soil particles on steel mesh to prepare the superlyophobic soil mesh by a facile surface treatment technology, and successfully apply it to various immiscible liquids separation. [Display omitted] •A multifunctional, sustainable material for immiscible liquid...

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Published inSeparation and purification technology Vol. 284; p. 120266
Main Authors Kang, Lei, Zeng, Qiao, Wang, Bin, Zeng, Jinsong, Liao, Bokai, Wu, Huixiang, Cheng, Zheng, Guo, Xingpeng
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.02.2022
Subjects
Corrosion resistance
Immiscible liquids separation
Low-cost
Soil
Low-cost
Corrosion resistance
Soil
Immiscible liquids separation
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Abstract A novel strategy for spraying nanosized soil particles on steel mesh to prepare the superlyophobic soil mesh by a facile surface treatment technology, and successfully apply it to various immiscible liquids separation. [Display omitted] •A multifunctional, sustainable material for immiscible liquid mixtures separation.•Under nonpolar (polar) liquid superlyophobicity of polar (nonpolar) liquid.•Used chemical properties-structure relationships to give material performance.•Low cost manufacturing, environment friendly, dimplicity of operator.•Good corrosion resistance in acidic, alkaline and high salt environment. Immiscible liquids separation has recently become a worldwide challenge due to the expanding industrial activity. It is still thorny to put forward a universal strategy for constructing multi-superlyophobic surfaces in immiscible liquids systems due to a thermodynamic contradiction. Herein, a low-cost, environmentally friendly pre-wetted nanosized soil coated-mesh (NSCM) was prepared, which shows the property of under-nonpolar-liquid superlyophobic to polar liquid, or under-polar-liquid superlyophobic to nonpolar liquid. The NSCM was fabricated in aqueous solutions by spraying melamine formaldehyde resin modified nanosized soil particles on a stainless-steel mesh for selective immiscible liquid separation. After the NSCM is prewetted with heavy liquid, heavy liquid can be removed from the light immiscible liquid mixtures by gravity. The as-prepared NSCM showed a high separation efficiency of above 99% for a series of immiscible liquids mixtures, even after 60 separation cycles. More importantly, the electrochemical tests indicated that the NSCM exhibited the outstanding durability after being immersed in alkali (pH = 10.0, NaOH), acidic (pH = 4.0, HCl) and high-concentrated salt solutions (3.5 wt% NaCl) for 30 days. The calculated Rt values were approximately 1.04 × 107, 2.65 × 106 and 7.59 × 105 Ω·cm2, respectively. And the corresponding corrosion rates were 0.013712, 0.96438, and 2.5818 μm/year, respectively. These excellent performances of the NSCM make it an ideal candidate material for separation, and even in a wider field of sea wastewater treatment.
AbstractList A novel strategy for spraying nanosized soil particles on steel mesh to prepare the superlyophobic soil mesh by a facile surface treatment technology, and successfully apply it to various immiscible liquids separation. [Display omitted] •A multifunctional, sustainable material for immiscible liquid mixtures separation.•Under nonpolar (polar) liquid superlyophobicity of polar (nonpolar) liquid.•Used chemical properties-structure relationships to give material performance.•Low cost manufacturing, environment friendly, dimplicity of operator.•Good corrosion resistance in acidic, alkaline and high salt environment. Immiscible liquids separation has recently become a worldwide challenge due to the expanding industrial activity. It is still thorny to put forward a universal strategy for constructing multi-superlyophobic surfaces in immiscible liquids systems due to a thermodynamic contradiction. Herein, a low-cost, environmentally friendly pre-wetted nanosized soil coated-mesh (NSCM) was prepared, which shows the property of under-nonpolar-liquid superlyophobic to polar liquid, or under-polar-liquid superlyophobic to nonpolar liquid. The NSCM was fabricated in aqueous solutions by spraying melamine formaldehyde resin modified nanosized soil particles on a stainless-steel mesh for selective immiscible liquid separation. After the NSCM is prewetted with heavy liquid, heavy liquid can be removed from the light immiscible liquid mixtures by gravity. The as-prepared NSCM showed a high separation efficiency of above 99% for a series of immiscible liquids mixtures, even after 60 separation cycles. More importantly, the electrochemical tests indicated that the NSCM exhibited the outstanding durability after being immersed in alkali (pH = 10.0, NaOH), acidic (pH = 4.0, HCl) and high-concentrated salt solutions (3.5 wt% NaCl) for 30 days. The calculated Rt values were approximately 1.04 × 107, 2.65 × 106 and 7.59 × 105 Ω·cm2, respectively. And the corresponding corrosion rates were 0.013712, 0.96438, and 2.5818 μm/year, respectively. These excellent performances of the NSCM make it an ideal candidate material for separation, and even in a wider field of sea wastewater treatment.
ArticleNumber 120266
Author Cheng, Zheng
Zeng, Jinsong
Guo, Xingpeng
Kang, Lei
Wu, Huixiang
Zeng, Qiao
Wang, Bin
Liao, Bokai
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Snippet A novel strategy for spraying nanosized soil particles on steel mesh to prepare the superlyophobic soil mesh by a facile surface treatment technology, and...
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StartPage 120266
SubjectTerms Corrosion resistance
Immiscible liquids separation
Low-cost
Soil
Title Facile fabrication of multi superlyophobic nano soil coated-mesh surface with excellent corrosion resistance for efficient immiscible liquids separation
URI https://dx.doi.org/10.1016/j.seppur.2021.120266
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