Waterborne organic silicone polyurethane with excellent self-healing performance for oil/water-separation and oil-recovery applications

Taoyan Mao, Hao Feng, Junrong Wu, Min Li, Su Luo, Jiale Chen, Xingchuan Wei, Peng Liu, Fengwei Xie

Research output: Contribution to journalArticlepeer-review

13 Citations (SciVal)

Abstract

While superhydrophobic coatings have been widely used for surface modification and protection, most suffer from relatively short service life due to the lack of self-healing mechanisms. Herein, a new self-healable coating formulation based on waterborne organic silicone polyurethane has been proposed by integrating disulfide groups into polyurethane molecules. The bulk polyurethane material with disulfide groups shows high self-healing efficiency of up to 90.8%. The polyurethane coating on cotton fabric showed high superhydrophobic performance even after severe damage. Furthermore, the coating showed excellent self-healing ability. The damaged surface could self-heal after heating at 80 °C for half an hour. The coating also exhibited excellent superhydrophobicity and extremely high oil/water-separation efficiency, even after experiencing 80 washes or being worn 800 times. The combination of superior self-healing ability and superhydrophobic properties of the waterborne organic silicone polyurethane coating provides a general approach for the long-term application of such coatings in harsh environments.

Original languageEnglish
Article numbere00631
JournalSustainable Materials and Technologies
Volume36
Early online date16 May 2023
DOIs
Publication statusPublished - 1 Jul 2023

Funding

We gratefully acknowledge the financial support provided by Guangzhou Science and Technology Plan Projects ( 202102010453 and 202102010393 ).

FundersFunder number
Guangzhou Science and Technology Plan Projects202102010453, 202102010393

    Keywords

    • Durable polymer coating
    • Fabric surface treatment
    • Self-healable polyurethane
    • Superhydrophobic coating

    ASJC Scopus subject areas

    • Renewable Energy, Sustainability and the Environment
    • General Materials Science
    • Waste Management and Disposal
    • Industrial and Manufacturing Engineering

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