Sustainable nanomaterials: the role of Cyrene in optimising carbon nanotubes dispersion and filtration efficiency.

Journal: Frontiers in chemistry
Published Date: Dec 19, 2024

Abstract

This study focuses on the fabrication and characterisation of single-walled carbon nanotube (SWCNT) buckypapers and polyethersulfone (PES) flat-sheet membranes using Cyrene, aiming toevaluate its efficacy as a green solvent for these applications. Pristine SWCNTs were dispersed inCyrene without surfactants and compared to N-Methyl-2-pyrrolidone (NMP) dispersions. Buckypapers were fabricated from these dispersions and characterised using Scanning ElectronMicroscopy (SEM), Atomic Force Microscopy (AFM), and infrared spectroscopy. Their performancewas tested in wastewater and oil-water emulsion filtrations and antimicrobial activity. PESmembranes incorporating SWCNTs were prepared using phase inversion and analysed via SEM,optical microscopy, and contact angle. Membrane properties and water permeability were assessed,and bacterial challenge tests evaluated antimicrobial activity. Cyrene enabled the dispersion ofSWCNTs at higher concentrations (0.038 mg mL⁻) compared to NMP (0.013 mg mL⁻). Transmission Electron Microscopy (TEM) analysis revealed that Cyrene effectively debundles SWCNTs, yielding better dispersion. Buckypapers fabricated with Cyrene demonstrated dense, uniform networks with enhanced surface smoothness and promising filtration performance for wastewater treatment and oil-water separation. PES membranes made with Cyrene exhibited well-organised finger-like structures, interconnected pores, superior porosity, and higher water permeability than NMP-based membranes. Incorporating SWCNTs further improved membrane performance. However, bacterial challenge tests indicated no significant antimicrobial activity. The findings highlight Cyrene's potential as a sustainable alternative to traditional solvents, offering improved material properties and filtration performance. Despite these advantages, further studies are necessary to address solvent residuals and long-term safety considerations, ensuring its suitability for broader applications.

Authors

  • Roxana A Milescu
    Circa Renewable Chemistry Institute, Department of Chemistry, University of York, York, United Kingdom.
  • C Rob McElroy
    Department of Chemistry, School of Natural Science, University of Lincoln, Lincoln, United Kingdom.
  • Edward J Taylor
    Department of Biological and Life Sciences, School of Natural Science, University of Lincoln, Lincoln, United Kingdom.
  • Peter Eaton
    Department of Chemistry, School of Natural Science, University of Lincoln, Lincoln, United Kingdom.
  • Paul M Williams
    Department of Chemical Engineering, Faculty of Science and Engineering, Swansea University Bay Campus, Swansea, United Kingdom.
  • Richard Phillips
    Membranology Limited, Swansea, United Kingdom.
  • Thomas J Farmer
    Green Chemistry Centre of Excellence, Department of Chemistry, University of York, York, United Kingdom.
  • James H Clark
    Circa Renewable Chemistry Institute, Department of Chemistry, University of York, York, United Kingdom.

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