Radiation Grafting of PVDF Track-Etched Membranes: A Study for Nanoscale Pore Functionalization
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Karagandy University of the name of academician E.A. Buketov
Abstract
Functionalization of nanoporous membranes poses a substantial challenge in the development of advanced
materials for selective transport applications. The primary objective of this study is to optimize the grafting
process to ensure the functionalization is localized onto nanopore walls. Poly(vinylidene fluoride) (PVDF) foils
were irradiated with Xe ions (1.2 MeV/u) followed by subsequent etching under optimized conditions to create
nanoporous membranes. Radiation grafting of acrylic acid (AA) monomer was performed through the residual
radical sites in post-etched pore walls of ion-irradiated PVDF. Radical concentrations after irradiation were
quantified using EPR spectroscopy. Examination of reaction parameters including inhibitor concentration, temperature,
monomer concentration, and reaction kinetics was conducted to achieve selective grafting within the
nanopores. FT-IR and XPS analyses confirmed the successful covalent attachment of poly(acrylic acid) (PAA)
to the PVDF TMs. Structural transformations of the PVDF matrix throughout the functionalization process
were revealed by DSC analysis. The versatility of the approach was further demonstrated by grafting of pHresponsive
poly(4-vinylpyridine), enabling modulation of nanopore surface charge, as evidenced by zeta-potential
measurements. The spatial localization of the grafted polymer was confirmed by confocal fluorescence
microscopy, demonstrating the potential for creating advanced functional membranes for separation and sensing
applications.
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Radiation Grafting of PVDF Track-Etched Membranes: A Study for Nanoscale Pore Functionalization / Kryukova-Seliverstova, A.V. [et al.] // Eurasian Journal of Chemistry. — Special Issue “Track-Etched Membranes:Future Prospects, Opportunities and Challenges”.— 2025. — Vol. 30. — №3(119). – pp.40-55.