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Development of membranes with well-dispersed polyampholytic copolymer via a composite coagulation process.

Authors :
Wang, Sheng-Yao
Fang, Li-Feng
Takagi, Ryosuke
Matsuyama, Hideto
Source :
Journal of Membrane Science. Feb2021, Vol. 620, pN.PAG-N.PAG. 1p.
Publication Year :
2021

Abstract

Polyampholytes, particularly zwitterionic polymers, are commonly used for the surface modification of membranes. This helps to improve the antifouling properties, anti-adhesion properties, and biocompatibility of the membranes. Surface coating and grafting are common surface modification methods; however, these methods lead to pore blocking and stability problems because polyampholytes exist only on the membrane surface. We propose a strategy to fabricate membranes with well-dispersed polyampholytic copolymers via a composite coagulation process. Negatively charged membranes are fabricated in a coagulation bath containing a polyampholytic copolymer. Thus, both membrane preparation and modification via electrostatic adsorption can be achieved via a one-step process. Moreover, the polyampholytic copolymer is expected to be dispersed within the membrane matrix as well as on the membrane surface. The chemical compositions within the membrane were analyzed using X-ray photoelectron spectroscopy combined with argon beam etching technique. The results indicated that the polyampholytic copolymer was well dispersed within the membrane matrix fabricated via this composite coagulation process, whereas only a thin coating layer was formed on the membrane surface via the normal surface coating method. The newly fabricated membrane exhibited greater water flux, better antifouling properties, and higher stability than pristine and surface-coated membranes. This paper presents a method to prepare high-performance membranes with polyampholytic copolymers. Image 1 • Hydrophilic membrane with well-dispersed polyampholytic copolymer was successfully fabricated. • The membrane was prepared via an in-situ composite coagulation process. • Well-dispersed chemical compositions were confirmed by XPS combined with argon beam etching technique. • Composite coagulation process provides a novel strategy for antifouling and high-permeability membrane. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
03767388
Volume :
620
Database :
Academic Search Index
Journal :
Journal of Membrane Science
Publication Type :
Academic Journal
Accession number :
148165799
Full Text :
https://doi.org/10.1016/j.memsci.2020.118848