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Bioinspired <i>N</i>-Oxide-Based Zwitterionic Polymer Brushes for Robust Fouling-Resistant Surfaces

Zimou Feng, Xunda Feng, Xinglin Lu

2023Environmental Science & Technology56 citationsDOI

Abstract

Fouling-resistant surfaces are needed for various environmental applications. Inspired by superhydrophilic N -oxide-based osmolytes in saltwater fish, we demonstrate the use of a trimethylamine N -oxide (TMAO) analogue for constructing fouling-resistant surfaces. The readily synthesized N -oxide monomer of methacrylamide is grafted to filtration membrane surfaces by surface-initiated atom transfer radical polymerization (SI-ATRP). Successful grafting of the amine N -oxide brush layer as confirmed by material characterization endows the surface with increased hydrophilicity, reduced charge, and decreased roughness. Notably, the introduction of the N -oxide layer does not compromise transport properties, i.e., water permeability and water-salt selectivity. Moreover, the modified membrane exhibits improved antifouling properties with a lower flux decline (32.1%) and greater fouling reversibility (18.55%) than the control sample (45.4% flux decline and 3.26% fouling reversibility). We further evaluate foulant–membrane interaction using surface plasmon resonance (SPR) to relate the reduced fouling tendency to the synergic effects of surface characteristic changes after amine N -oxide modification. Our results demonstrate the promise and potential of the N -oxide-based polymer brushes for the design of fouling resistance surfaces for a variety of emerging environmental applications.

Topics & Concepts

FoulingBiofoulingPolymerChemical engineeringOxidePolymer scienceChemistryMaterials sciencePolymer chemistryNanotechnologyMembraneOrganic chemistryEngineeringBiochemistryPolymer Surface Interaction StudiesSurface Modification and SuperhydrophobicityMarine Biology and Environmental Chemistry
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