Litcius/Paper detail

Rapid and effective self-healing of graphene oxide membranes enabled by alginate functionalization

Shouyuan Hu, Jie Jiang, Junbo Wang, Jiahao Hu, Yalong Li, Pei Li, Liang Chen

2025Journal of Membrane Science7 citationsDOIOpen Access PDF

Abstract

Cross-linking graphene oxide (GO) membranes enhances separation performance by meticulously regulating nanochannels and interactions between GO flakes. However, achieving self-healing for localized damage, such as mechanical scratches, still remains a crucial challenge in prolonging membrane lifespan and minimizing costs. Here, we have innovatively designed a reduced GO membrane functionalized with sodium alginate (SA@rGO), which demonstrates rapid and effective self-healing performance. For blade damages with a width of ∼10 μm, rapid repair can be achieved within 10 min by the addition of a minute quantity of CaCl 2 solution. Through various dye rejection experiments, it was observed that both the rejection rate and permeance of the damaged membrane were rapidly restored to their original levels. During the long-term separation experiments over 100 h, our membrane exhibited exceptional rejection stability, further underscoring its excellent healing capabilities. Element mapping via scanning electron microscopy (SEM) and synchrotron radiation-based Fourier-transform infrared (SR-FTIR) spectroscopy indicated that calcium ions interact with SA molecules to form a hydrogel network, effectively 'stitching' the damaged areas together and enabling self-repair. Consequently, our self-healing functionality significantly elevates the potential of GO membranes for nanofiltration applications. • rGO membrane functionalized with alginate to enable rapid self-healing is reported. •Damages to SA@rGO membrane can be rapidly repaired within 10 min. •The repaired SA@rGO membrane can maintain stability during long-term operation.

Topics & Concepts

Surface modificationGrapheneMembraneOxideSelf-healingMaterials scienceNanotechnologyChemical engineeringChemistryMedicineEngineeringBiochemistryMetallurgyAlternative medicinePathologyMembrane Separation TechnologiesSolar-Powered Water Purification MethodsGraphene research and applications