Superhydrophobic coatings based on raspberry-like nanoparticles and their applications on cotton

Zhao, Xia; Sun, Miaomiao; Duan, Yanping; Hong, Hao

doi:10.1016/j.colsurfa.2020.125039

Cited by 12 publications

(8 citation statements)

References 32 publications

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“…Zhao et al 65 used an emulsifier-free polymerization and sol–gel method to prepare superhydrophobic Me-SiO 2 and i-Bu-SiO 2 copolymer coatings containing raspberry-like micro–nano particles by only adjusting the initial solution (Fig. 10(a)).…”

Section: Preparation Of Superhydrophobic Ice-proof Surfacementioning

confidence: 99%

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Recent advances in bioinspired superhydrophobic ice-proof surfaces: challenges and prospects

2022

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Section: Preparation Of Superhydrophobic Ice-proof Surfacementioning

confidence: 99%

“…Fig.10(a) Superhydrophobic Me-SiO 2 and i-Bu-SiO 2 copolymer coatings containing raspberry-like micro-nanoparticles fabricated via emulsifierfree polymerization and sol-gel methods 65. This figure has been reproduced from ref.…”

mentioning

confidence: 99%

Recent advances in bioinspired superhydrophobic ice-proof surfaces: challenges and prospects

2022

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“…Our team has made many attempts in this regard. − Besides, the team of Yang and Liang firmly bonded Janus particles to the surface of the substrate through cross-linking or covalent bonding, improving the mechanical properties of Janus particle-based coatings. Also, two types of Janus particles were developed to produce strong superhydrophobic coatings at larger scale methods .…”

Section: Application Of Janus Materialsmentioning

confidence: 99%

Research Advances in the Synthesis, Application, Assembly, and Calculation of Janus Materials

Duan

Zhao

Sun

et al. 2021

Ind. Eng. Chem. Res.

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Janus materials with anisotropy shapes and chemical compositions, including Janus particles, Janus nanosheets, and Janus membranes, have a great significance in the development of new functional materials and expansion of the properties and applications of materials. This review summarizes recent works on Janus materials of preparation, application, assembly, and calculation. First, we briefly sort out the methods of preparing Janus particles and discuss the factors influencing the structure, shape, and size of Janus particles, pointing out their advantages and the direction of improvement. Then, we introduce in detail the applications field from a single Janus particle, assembly of Janus particles, 2D Janus nanosheet, and Janus membrane. We summarize the recent research on the self-assembly of Janus particles and point out the role of the combination of computational simulation and experiment in the research of Janus material. Finally, the research process of Janus materials is reviewed, and the development tendencies of Janus materials and the problems to be solved are summarized.

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“…[14] The preparation of superhydrophobic surfaces usually consists of two steps, the first step is the construction of surface rough structures, followed by hydrophobic modification to reach low surface energy. [15] Many methods have been proposed to achieve surface roughening of materials, such as sol-gel method, [16,17] chemical etching, [18,19] electrochemical deposition, [20,21] template method, [22,23] and plasma etching. [24,25] However, the corrosion-resistant and nonconductive nature of GFRP limit the use of some processing methods.…”

Section: Introductionmentioning

confidence: 99%

Superhydrophobic and Anti‐Icing Surface by Femtosecond Laser Direct Writing

Zhu

Juodkazis

et al. 2023

Adv Eng Mater

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Glass fiber reinforced polymer (GFRP) is formed with glass fiber as the reinforcing material and resin as the matrix. It is widely used in wind turbine blades because of its lightweight, high strength, and corrosion resistance properties. Here a method to prepare superhydrophobic GFRP surfaces by femtosecond laser direct writing combined with fluoroalkylsilane modification is demonstrated. The prepared GFRP surface has excellent superhydrophobicity with contact angle of 163.9° and sliding angle of 3.8°. In the ice resistance tests, the icing delay time was extended from 33 s to 273 s at ‐5°C. The ice adhesion strength was reduced from 217.4 kPa to 40.3 kPa. The surface still had superhydrophobicity and ice adhesion strength of less than 100 kPa after 10 cycles of the test. The laser exposure conditions were optimized for water/ice repelling and were at high intensity of 4 TW/cm²/pulse and 2.5 m/s beam travel speed which makes presented approach efficient for fabrication over industrially large areas.This article is protected by copyright. All rights reserved.

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Superhydrophobic coatings based on raspberry-like nanoparticles and their applications on cotton

Cited by 12 publications

References 32 publications

Recent advances in bioinspired superhydrophobic ice-proof surfaces: challenges and prospects

Recent advances in bioinspired superhydrophobic ice-proof surfaces: challenges and prospects

Research Advances in the Synthesis, Application, Assembly, and Calculation of Janus Materials

Superhydrophobic and Anti‐Icing Surface by Femtosecond Laser Direct Writing

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