Issue 10, 2024

Increased hydrophilicity of lignin-derivable vs. bisphenol-based polysulfones for potential water filtration applications

Abstract

The functionality inherent in lignin-derivable aromatics (e.g., polar methoxy groups) can provide a potential opportunity to improve the hydrophilicity of polysulfones (PSfs) without the need for the additional processing steps and harsh reagents/conditions that are typically used in conventional PSf modifications. As determined herein, lignin-derivable PSfs without any post-polymerization modification exhibited higher hydrophilicity than comparable petroleum-based PSfs (commercial/laboratory-synthesized) and also demonstrated similar hydrophilicity to functionalized BPA-PSfs reported in the literature. Importantly, the lignin-derivable PSfs displayed improved thermal properties relative to functionalized BPA-PSfs in the literature, and the thermal properties of these bio-derivable PSfs were close to those of common non-functionalized PSfs. In particular, the glass transition temperature (Tg) and degradation temperature of 5% weight loss (Td5%) of lignin-derivable PSfs (Tg ∼165–170 °C, Td5% ∼400–425 °C) were significantly higher than those of typical functionalized BPA-PSfs in the literature (Tg ∼110–160 °C, Td5% ∼240–260 °C) and close to those of unmodified, commercial/laboratory-synthesized BPA-/bisphenol F-PSfs (Tg ∼180–185 °C, Td5% ∼420–510 °C).

Graphical abstract: Increased hydrophilicity of lignin-derivable vs. bisphenol-based polysulfones for potential water filtration applications

Supplementary files

Article information

Article type
Communication
Submitted
18 Jun 2024
Accepted
04 Sep 2024
First published
18 Sep 2024
This article is Open Access
Creative Commons BY-NC license

RSC Sustain., 2024,2, 2844-2850

Increased hydrophilicity of lignin-derivable vs. bisphenol-based polysulfones for potential water filtration applications

J. S. Mahajan, H. Shokrollahzadeh Behbahani, M. D. Green, L. T. J. Korley and T. H. Epps, RSC Sustain., 2024, 2, 2844 DOI: 10.1039/D4SU00314D

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