Pinene‐Functionalized Polysiloxane as an Excellent Self‐Healing Superhydrophobic Polymer

Zhao, Zihan; Wang, Dapeng; Li, Chenghui; Zuo, Jing‐Lin

doi:10.1002/macp.201900361

Cited by 16 publications

(12 citation statements)

References 40 publications

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“…Tuo et al [126] prepared SHS on aluminum foil using a one-step hydrothermal method, which was prepared by hydrothermal reaction of Al 2 O 3 , perfluorotetraalkanoic acid, and ethanol. Zhao et al [127] prepared a fluorine-free SHS with self-healing ability by using beta-pinene extracted from silicone oil and turpentine for water-silicon reaction. Zhang et al [128] fixed LDHs multilayer films on the surface by hydrothermal method, after hydrophobic modification with PFTS ethanol solution.…”

Section: Other Methodsmentioning

confidence: 99%

Recent Developments of Superhydrophobic Surfaces (SHS) for Underwater Drag Reduction Opportunities and Challenges

Feng

Sun

Tian

2021

Adv Materials Inter

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Superhydrophobic surfaces (SHS) for underwater drag reduction draw more and more attention owing to its promising and wide applications such as underwater vehicles, pipeline oil transportation, and aquaculture. However, the drag reduction properties are inextricably linked to the stability of air layer on SHS. This review highlights recent advances regarding SHS for underwater drag reduction in the past three years. First, the fundamental theories are briefly described. Next, the crucial influencing factors, which include dimension and arrangement of particles, layout, and shape of the microstructures, Reynolds number, and attack angle on underwater drag reducing performance of SHS are thoroughly listed. Furthermore, the superior or inferior of these manufacturing techniques is also individually illustrated. After that, the solutions of enhancing stability of the air layer are explicitly classified. Then, the practical applications and its potential value in ships and underwater vehicles, microchannels, as well as fabrics are briefly discussed. Finally, the remaining challenges and promising breakthroughs in the field of SHS for underwater drag reduction are clarified in depth.

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Section: Other Methodsmentioning

confidence: 99%

Recent Developments of Superhydrophobic Surfaces (SHS) for Underwater Drag Reduction Opportunities and Challenges

Feng

Sun

Tian

2021

Adv Materials Inter

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“…Zi-Han Zhao et al [103] grafted the renewable β-pinene into PHMS by a one-step silicon-hydrogen addition reaction. Due to excellent adhesion and low surface energy of PHMS-bp, it could be coated on the substrate to form a hydrophobic surface.…”

Section: Prepare Self-healing Surfacementioning

confidence: 99%

Recent Advances on the Abrasion Resistance Enhancements and Applications of Superhydrophobic Materials

Yang

Yuan

Liu

et al. 2023

The Chemical Record

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Researches on superhydrophobicity have been overwhelming and have shown great advantages in various fields. However, the abrasion resistance of superhydrophobic structures was usually poor, and they were easily damaged by external force or harsh environment, which greatly limited the applications of superhydrophobic surfaces. Much attention has been paid to improving the abrasion resistance of superhydrophobic materials by researchers. In this review, aimed at the advances on improving the abrasion resistance of superhydrophobic surfaces, it was summarized and compared three enhancement strategies including the reasonably design of micro‐nano structures, the adoption of adhesives, and the preparation of self‐healing surface. Finally, the applications of typical superhydrophobic materials with abrasion resistance were reviewed in various fields. In order to broaden the application fields of superhydrophobic materials, the abarasion resistance should be further improved. Therefore, we proposed the ideas for the future development of superhydrophobic materials with higher abrasion resistance. We hope that this review will provide a new approach to the preparation and development of stable superhydrophobic surfaces with higher abrasion resistance.

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“…Synthesis route of PHMS-bp and schematics of its network structure, SEM images of PHMS-bp (left), and F-PHMS-bp (right), and schematic illustration of the procedure used to construct the superhydrophobic material F-PHMS-bp from PHMS-bp. Reproduced with permission from ref . Copyright 2019 Wiley.…”

Section: Fabrication Of Self-healing Superwetting Surfacesmentioning

confidence: 99%

“…213 When PDMS contains graphene, the burnt surface shows enhanced superhydropho- bicity. Zhao et al 214 prepared a self-healing superhydrophobic membrane using modified commercial silicone oil as the material. The silicon oil was grafted with β-pinene, which riched with double bonds (−CH�CH−), and the membrane was subjected to propane flame treatment to form nanostructured rough surfaces.…”

Section: Regeneration Of Surface Microstructures Using Shape Memory P...mentioning

confidence: 99%

Self-Healing Superwetting Surfaces, Their Fabrications, and Properties

et al. 2022

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The research on superwetting surfaces with a self-healing function against various damages has progressed rapidly in the recent decade. They are expected to be an effective approach to increasing the durability and application robustness of superwetting materials. Various methods and material systems have been developed to prepare selfhealing superwetting surfaces, some of which mimic natural superwetting surfaces. However, they still face challenges, such as being workable only for specific damages, external stimulation to trigger the healing process, and poor self-healing ability in the water, marine, or biological systems. There is a lack of fundamental understanding as well. This article comprehensively reviews self-healing superwetting surfaces, including their fabrication strategies, essential rules for materials design, and self-healing properties. Self-healing triggered by different external stimuli is summarized. The potential applications of self-healing superwetting surfaces are highlighted. This article consists of four main sections: (1) the functional surfaces with various superwetting properties, (2) natural self-healing superwetting surfaces (i.e., plants, insects, and creatures) and their healing mechanism, (3) recent research development in various self-healing superwetting surfaces, their preparation, wetting properties in the air or liquid media, and healing mechanism, and (4) the prospects including existing challenges, our views and potential solutions to the challenges, and future research directions.

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Pinene‐Functionalized Polysiloxane as an Excellent Self‐Healing Superhydrophobic Polymer

Cited by 16 publications

References 40 publications

Recent Developments of Superhydrophobic Surfaces (SHS) for Underwater Drag Reduction Opportunities and Challenges

Recent Developments of Superhydrophobic Surfaces (SHS) for Underwater Drag Reduction Opportunities and Challenges

Recent Advances on the Abrasion Resistance Enhancements and Applications of Superhydrophobic Materials

Self-Healing Superwetting Surfaces, Their Fabrications, and Properties

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