Cation exchange chromatography membrane of Poly(ethylene vinyl alcohol) nanofiber/sulfonated polystyrene microsphere composite for lysozyme isolation

Lysozyme, as widely used bacteriostatic enzyme, the rapid and low-cost isolation of lysozyme with high purity was the basis and premise of its application. In this work, a facile approach of spray coating was proposed to engineer composite membranes consisted of sulfonated polystyrene microspheres a...

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Bibliographic Details
Published in:Composites communications 2023-06, Vol.40, p.101570, Article 101570
Main Authors: Ji, Cancan, Hu, Wei, Cheng, Pan, Huang, Peng, He, Shanshan, Xiang, Yang, Zhou, Feng, Liu, Ke, Wang, Dong
Format: Article
Language:English
Subjects:
Chromatography
Nanofiber membrane
poly(ethylene vinyl alcohol)
Sulfonated polystyrene
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Summary:Lysozyme, as widely used bacteriostatic enzyme, the rapid and low-cost isolation of lysozyme with high purity was the basis and premise of its application. In this work, a facile approach of spray coating was proposed to engineer composite membranes consisted of sulfonated polystyrene microspheres and poly(ethylene vinyl alcohol) nanofibers. The sulfonic acid groups offer strong interaction between the ligand and lysozyme, endowing high lysozyme adsorption capacity. And simultaneously, the porous channels of nanofibrous membranes guarantee high water flux. The FTIR and XPS results indicate the incorporation of sulfonated polystyrene spheres. The EVOH/SPS composite membranes exhibit both high water permeability and lysozyme adsorption capacity. Importantly, the constructed chromatography columns possess high performance of water flux with 9172 L h−1 m−2, and excellent adsorption capacity at static and dynamic state, revealing enormous potential for application. [Display omitted] •Engineering sulfonated PS microspheres/EVOH nanofibers composite membranes.•The sulfonic acid groups offer strong interaction between the ligand and lysozyme.•EVOH nanofibrous membranes exhibit porous channels.•Simultaneously realizing high water flux and lysozyme adsorption capacity.
ISSN:2452-2139
2452-2139
DOI:10.1016/j.coco.2023.101570