Superhydrophobicity and Durability in Recyclable Polymers Coating

Highly hydrophobic and superhydrophobic materials obtained from recycled polymers represent an interesting challenge to recycle and reuse advanced performance materials after their first life. In this article, we present a simple and low-cost method to fabricate a superhydrophobic surface by employing polytetrafluoroethylene (PTFE) powder in polystyrene (PS) dispersion. With respect to the literature, the superhydrophobic surface (SHS) was prepared by utilizing a spray- coating technique at room temperature, a glass substrate without any further modification or thermal treatment, and which can be applied onto a large area and on to any type of material with some degree of fine control over the wettability properties. The prepared surface showed superhydrophobic behavior with a water contact angle (CA) of 170°; furthermore, the coating was characterized with different techniques, such as a 3D confocal profilometer, to measure the average roughness of the coating, and scanning electron microscopy (SEM) to characterize the surface morphology. In addition, the durability of SH coating was investigated by a long-water impact test (raining test), thermal treatment at high temperature, an abrasion test, and in acidic and alkaline environments. The present study may suggest an easy and scalable method to produce SHS PS/PTFE films that may find implementation in various fields.

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A Simple Method to Create Superhydrophobic Aluminium Surfaces

Materials Science Forum ◽

10.4028/www.scientific.net/msf.706-709.2874 ◽

2012 ◽

Vol 706-709 ◽

pp. 2874-2879 ◽

Cited By ~ 10

Author(s):

R. Jafari ◽

Masoud Farzaneh

Keyword(s):

Contact Angle ◽

Stearic Acid ◽

Synergistic Effects ◽

Low Cost ◽

Contact Angle Hysteresis ◽

Spray Coating ◽

Superhydrophobic Surfaces ◽

Water Contact ◽

Simple Method ◽

Static Contact

Superhydrophobic surfaces were prepared using a very simple and low-cost method by spray coating. A high static water contact angle of about 154° was obtained by deposition of stearic acid on an aluminium alloy. However, this coating demonstrated a high contact angle hysteresis (~ 30º). On the other hand, superhydrophobic surfaces with a static contact angle of about 162º and 158º, and a low contact angle hysteresis of about 3º and 5º were respectively obtained by incorporating nanoparticles of SiO2and CaCO3in stearic acid. The excellent resulting hydrophobicity is attributed to the synergistic effects of micro/nanoroughness and low surface energy. A study of the wettability of these surfaces at temperatures ranging from 20 to-10 °C showed that the superhydrophobic surface becomes rather hydrophobic at supercooled temperatures.

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Fast and low-cost method to fabricate large-area superhydrophobic surface on steel substrate with anticorrosion and anti-icing properties

Journal of Vacuum Science & Technology A Vacuum Surfaces and Films ◽

10.1116/1.4953031 ◽

2016 ◽

Vol 34 (4) ◽

pp. 041401 ◽

Cited By ~ 7

Author(s):

Wei Yan ◽

Hongtao Liu ◽

Tianchi Chen ◽

Qinghe Sun ◽

Wei Zhu

Keyword(s):

Superhydrophobic Surface ◽

Steel Substrate ◽

Low Cost ◽

Large Area

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Improving the Hydrophobicity of ZnO by PTFE Incorporation

Journal of Nanotechnology ◽

10.1155/2011/392754 ◽

2011 ◽

Vol 2011 ◽

pp. 1-6 ◽

Cited By ~ 7

Author(s):

Meenu Srivastava ◽

Bharathi Bai J. Basu ◽

K. S. Rajam

Keyword(s):

Thermal Treatment ◽

Stearic Acid ◽

Superhydrophobic Surface ◽

Cost Effective ◽

Electrical Energy ◽

High Water ◽

Superhydrophobic Coating ◽

Water Contact ◽

Low Surface Energy ◽

Effective Manner

The objective of the present study is to obtain a zinc oxide- (ZnO-) based superhydrophobic surface in a simple and cost-effective manner. Chemical immersion deposition being simple and economical has been adopted to develop modified ZnO coating on glass substrate. Several modifications of ZnO like treatment with alkanoic acid (stearic acid) and fluoroalkylsilane to tune the surface wettability (hydrophobicity) were attempted. The effect of thermal treatment on the hydrophobic performance was also studied. It was observed that thermal treatment at 70°C for 16 hrs followed by immersion in stearic acid resulted in high water contact angle (WCA), that is, a superhydrophobic surface. Thus, a modified ZnO superhydrophobic surface involves the consumption of large amount of electrical energy and time. Hence, the alternate involved the incorporation of low surface energy fluoropolymer polytetrafluoroethylene (PTFE) in the ZnO coating. The immersion deposited ZnO-PTFE composite coating on modification with either stearic acid or fluoroalkylsilane resulted in a better superhydrophobic surface. The coatings were characterized using Scanning Electron Microscope (SEM) for the surface morphology. It was found that microstructure of the coating was influenced by the additives employed. A flower-like morphology comprising of needle-like structure arranged in a radial manner was exhibited by the superhydrophobic coating.

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Fabrication of Self-Healable, Robust Superhydrophobic Surfaces Using UV-Crosslinked Nanocomposite Films

Journal of Nanoscience and Nanotechnology ◽

10.1166/jnn.2021.19086 ◽

2021 ◽

Vol 21 (12) ◽

pp. 6212-6216

Author(s):

Yeon-Ah Park ◽

Young-Geun Ha

Keyword(s):

Low Cost ◽

Synergetic Effect ◽

Spray Coating ◽

Uv Curing ◽

Industrial Applications ◽

Contact Angles ◽

Superhydrophobic Surfaces ◽

Nanocomposite Films ◽

Self Healing ◽

Water Contact

Studies on fabricating robust superhydrophobic surfaces by a low-cost method have been rare, despite the recent demand for nature-inspired superhydrophobic surfaces including self-healing ability in various industrial applications. Herein, we propose a fabrication method for self-healable, robust superhydrophobic nanocomposite films by facile solution-processed spray coating and UV curing. The components of the coating solution include functionalized hydrophobic silica nanoparticles for producing high roughness hierarchical textured structures with low surface energy, and UV-crosslinkable v-POSS and bi-thiol hydrocarbon molecules to improve the film stability. As a result of the synergetic effect of the hydrophobic nanoparticles and UV-crosslinked polymeric compounds, the spray-coated and UV-cured nanocomposite films possess excellent superhydrophobicity (water contact angles > 150º) and high stability, in addition to self-healing abilities.

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Superhydrophobic Surface Fabricated on Carbon Steel Substrate by Zinc Electrodeposition for Prevention of Corrosion

E3S Web of Conferences ◽

10.1051/e3sconf/20183802024 ◽

2018 ◽

Vol 38 ◽

pp. 02024 ◽

Cited By ~ 3

Author(s):

Liping Wang ◽

Lei Zhuang ◽

Gang Chen ◽

Dong Leng ◽

Jian wang ◽

...

Keyword(s):

Corrosion Resistance ◽

Carbon Steel ◽

Superhydrophobic Surface ◽

Steel Substrate ◽

Low Cost ◽

Energy Dispersive Spectrometer ◽

Water Contact ◽

Zinc Electrodeposition ◽

Excellent Corrosion Resistance ◽

Polarization Test

A facile, low cost, and relatively environmental friendly method was presented for the fabrication of superhydrophobic surface on carbon steel substrate. The superhydrophobic surface was obtained by zinc electrodeposition and chemical modification with ethanolic stearic acid. The wettability of the superhydrophobic surface was measured by a water contact angle (WCA) with a highest value of 155.7°. The morphology of the fabricated film was characterized by scanning electron microscopy (SEM). The chemical composition of the fabricated surface was analysed by energy dispersive spectrometer (EDS) and fourier transform infrared spectroscopy (FTIR), respectively. The corrosion resistance of the carbon steel substrate was measured by potentiodynamic polarization test in 3.5 wt% NaCl solution. The electrochemical measurements show excellent corrosion resistance, which may have promising applications in anticorrosion of carbon steel.

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Theoretical Uniformity Analysis and Improvement of Spray Deposition by Mixing Nozzles with Heating Conditions

Coatings ◽

10.3390/coatings10010081 ◽

2020 ◽

Vol 10 (1) ◽

pp. 81

Author(s):

Xuran Dong ◽

Xiaolong Pan ◽

Xianxian Gao ◽

Haisheng Fang

Keyword(s):

High Speed ◽

Heating Temperature ◽

Spray Deposition ◽

Low Cost ◽

Spray Coating ◽

Deposition Process ◽

Test Method ◽

Large Area ◽

Orthogonal Test Method ◽

Experimental Trials

Spray coating is widely used in the manufacture of deposited layers of electronic devices due to its unique advantages of high-speed deposition over a large area. To improve the spray deposition process for further low-cost and uniform production, the uniformity of the spray deposition should be systematically investigated. The current study, however, mainly focuses on the experimental trials with few numerical directions especially for the mixing nozzle sprayers with heating conditions. In the paper, we conduct a theoretical study on the uniformity of the internal and external mixing nozzles. The influencing factors include the initial angle, the total ink flow rate, the transporting gas velocity and the distance from the nozzle to the substrate. Then, the orthogonal test method is adopted to obtain the optimal combination of the parameters. Finally, the effects of different heating modes on the uniformity have been further studied. The results show that these factors influence the uniformity with the two types of nozzles to a different degree. The evaporation of the atomized droplets can effectively improve the uniformity in a certain temperature range. The heating temperature with the highest uniformity is various depending on the heating modes, which should be carefully addressed during the actual production.

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A Two-Step Method to Prepare Stable Superhydrophobic Surface on Steel Substrates

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.463-464.349 ◽

2012 ◽

Vol 463-464 ◽

pp. 349-353 ◽

Cited By ~ 1

Author(s):

Feng Guo ◽

Xun Jia Su ◽

Gen Liang Hou ◽

Zhao Hui Liu ◽

Hai Peng Jia

Keyword(s):

Contact Angle ◽

Superhydrophobic Surface ◽

Low Cost ◽

Superhydrophobic Surfaces ◽

Step Method ◽

Water Contact ◽

Lotus Leaf ◽

Nanoscale Particles ◽

Steel Substrates

Superhydrophobic surfaces have been a hot topic during the last decade owing to their great potential in widely application. In this work, we report on a facile and low-cost two-step method to fabricate superhydrophobic surface on steel substrates. The as-obtained surface shows an interesting hierarchical structure composed of microscale flowerlike cluster and nanoscale particles, which is similar to that of a lotus leaf. After further modification with stearic acid, the resultant surface exhibits remarkable superhydrophobic properties. The water contact angle is as high as 155°. Moreover, the superhydrophobic properties are long-term stable.

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FABRICATION OF LARGE-AREA SILICON NANOWIRE ARRAYS FOR SOLAR CELLS

International Journal of Nanoscience ◽

10.1142/s0219581x12400261 ◽

2012 ◽

Vol 11 (06) ◽

pp. 1240026

Author(s):

WUXING LAI ◽

GUOQIANG XU ◽

WEI ZHANG ◽

TIELIN SHI

Keyword(s):

Solar Cells ◽

Aspect Ratio ◽

Silicon Wafer ◽

Low Cost ◽

Silicon Nanowire ◽

Large Area ◽

Water Contact ◽

Potential Implication ◽

Silicon Nanowire Arrays ◽

P Type

In this paper, a simple, low-cost and efficient method was adopted to fabricate large-area Si nanowire ( SiNW ) arrays by inserting the p-type (100) silicon wafer into aqueous HF + AgNO3 solution for a certain time at room temperature. Surface of the silicon wafer with high aspect ratio SiNW shows the characteristics of low-reflection as low as 5% in the 450–800 nm wavelength range, especially less than 1% after etching for 60 min. The surface also exhibits super-hydrophobicity with water contact angle up to 150°. We investigated the relationship between the etching duration and aspect ratio of the SiNW systematically and demonstrated that the aspect ratio of the SiNW can be controlled. The antireflection surface shows a potential implication in increasing the conversation efficiency for solar cells, and the self-cleaning properties will further enhance the resistance to environment conditions for a long-life work.

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Stable and Durable Conductive Superhydrophobic Coatings Prepared by Double-Layer Spray Coating Method

Nanomaterials ◽

10.3390/nano11061506 ◽

2021 ◽

Vol 11 (6) ◽

pp. 1506

Author(s):

Xiang Liu ◽

Kai Chen ◽

Dekun Zhang ◽

Zhiguang Guo

Keyword(s):

Composite Coating ◽

Double Layer ◽

Low Cost ◽

Spray Coating ◽

Sliding Angle ◽

Water Contact ◽

Superhydrophobic Coatings ◽

Coating Method ◽

Specialty Fields ◽

Application Fields

Herein, a low cost, durable, and stable conductive superhydrophobic composite coating (CSC coating) was fabricated on a Q345 steel surface by simple double-layer spray coating. The water contact angle (WCA) of the CSC coating was 160° and the sliding angle (SA) was 3°. In addition to its excellent conductivity (3.10 × 103 Ω), the fabricated composite coating had good durability and wear resistance. After 10 sand-washing cycles, the CSC coating surface still exhibited stable superhydrophobicity (149° WCA, 9.5° SA). At 200 g pressure, the surface of the optimized CSC coating still maintained fine superhydrophobicity (150° WCA, 9.2° SA) and conductivity (1.86 × 104 Ω) after 10 abrasion cycles. In addition, it also exhibited fine adhesion (0.307 MPa) between the composite coating and the substrate. This functional superhydrophobic surface can be applied in specialty fields with harsh conditions such as coal mining and petrochemical activities. This new coating may also expand the application fields of superhydrophobic surfaces and have broad practical application prospects.

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A Facile Modifier-free Approach to Fabricate Antistatic Superhydrophobic Composite Coatings with Remarkable Thermal Stability and Corrosion Resistance

Journal of Bionic Engineering ◽

10.1007/s42235-020-0034-3 ◽

2020 ◽

Vol 17 (3) ◽

pp. 421-435

Author(s):

Xiang Liu ◽

Dekun Zhang ◽

Zhiguang Guo

Keyword(s):

Thermal Stability ◽

Low Cost ◽

Composite Coatings ◽

Spray Coating ◽

High Water ◽

Polyphenylene Sulfide ◽

Superhydrophobic Surfaces ◽

Superhydrophobic Coating ◽

Sliding Angle ◽

Water Contact

AbstractResearch on antistatic superhydrophobic surfaces has attracted widespread attention in some fields. However, in the application of superhydrophobic materials, fabricating stable and practical superhydrophobic surfaces through facile and low-cost approaches still faces considerable challenges. Herein, a polyphenylene sulfide (PPS)-based antistatic superhydrophobic composite coating with a high water contact angle (166°) and a low sliding angle (2°) was fabricated on a Q345 steel surface through a simple spray-coating method without any modifier. Furthermore, the as-prepared superhydrophobic coating also displayed excellent superhydrophobicity for water droplets at different pH values, as well as self-cleaning, anti-fouling and anti-icing properties. Importantly, the superhydrophobic coating still exhibited superhydrophobicity after calcination at 350 °C for 1 h, indicating its outstanding thermal stability. Excellent antistatic and anticorrosion properties were obtained on the prepared coating surface, which allows the coating to be applied under harsh conditions. Benefiting from the above characteristics, compared with the commercial coating, the as-obtained antistatic superhydrophobic coating may be applied more widely in related fields.

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