Multifunctional coatings fabricated from Chinese hemp-derived superhydrophobic micro-nanocellulose

Int J Biol Macromol. 2024 Apr;263(Pt 2):130430. doi: 10.1016/j.ijbiomac.2024.130430. Epub 2024 Feb 24.

Abstract

Ecologically feasible strategies for constructing superhydrophobic surfaces offer versatile applications in waterproofing, self-cleaning, selective absorption, and corrosion protection. Herein, we prepared low-surface-energy branched-chain-enriched micronanorod (F@SiO2@MNC) by hydrolyzing silane coupling agent and modifying fluoropolymer using micro-nanocellulose extracted from waste straw (Chinese hemp). These rods were sprayed and adhered to various substrates precoated with a binder, resulting in superhydrophobic surfaces. F@SiO2@MNC addition allowed for the formation of stable spherical liquid droplets when in contact with different types of aqueous liquids. Furthermore, these surfaces demonstrated excellent self-cleaning, robustness, abrasion resistance, UV resistance, cycling stability, and other multifunctionalities. They significantly enhanced the mechanical properties of filter paper, effectively separated oil water mixtures, and improved the corrosion resistance of metals. Our proposed strategy represents a novel approach for developing multifunctional coatings assembled from micronanocellulose.

Keywords: Cellulose; Chemical modification; Multifunctional coating.

MeSH terms

  • Cannabis*
  • China
  • Corrosion
  • Hydrophobic and Hydrophilic Interactions
  • Silicon Dioxide

Substances

  • Silicon Dioxide