期刊
INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES
卷 253, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.ijbiomac.2023.127421
关键词
Lignin; Zwitterion; Nafion; Proton exchange membrane; Oxidative stability
A novel zwitterion-substituted lignin (ZL) was synthesized and used to fabricate proton exchange membranes. The incorporation of ZL into Nafion membranes improved their ion exchange capacity, thermal stability, and hydrophilicity. The zwitterionic moieties of ZL enhanced proton transport ability, and ZL also improved the chemical durability and oxidation stability of Nafion membranes, showing potential for fuel cell applications.
In this study, a novel zwitterion-substituted lignin (ZL) containing amino and sulfonic acid groups was synthesized, and ZL/Nafion composite membranes were fabricated as proton exchange membranes. Kraft lignin was modified using an aminosilane and 1,3-propanesultone via a continuous grafting reaction to provide zwitterionic moieties. Chemical structural analyses confirmed the successful introduction of the zwitterion moiety into lignin. In particular, the surface charge of ZL is positive in an acidic medium and negative in a basic medium, suggesting that ZL is a zwitterionic material. ZL was incorporated into a Nafion membrane to enhance its ion exchange capacity, thermal stability, and hydrophilicity. The proton conductivity of ZL/Nafion 0.5 %, 151.0 mS/cm, was 55.3 % higher than that of unmodified ML (methanol-soluble lignin)/Nafion 0.5 % (97.2 mS/cm), indicating that the zwitterion moiety of ZL enhances the proton transport ability. In addition, oxidative stability evaluation confirmed that ZL/Nafion 2 % was chemically more durable than pure Nafion. This confirmed that using lignin as a membrane additive yielded positive results in terms of chemical durability and oxidation stability in Nafion. Therefore, ZL is expected to be utilized as a multifunctional additive and exhibits the potential for fuel cell applications.
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