Hydrophobic-Hydrophilic Properties and Characterization of PIM-1 Films Treated by Elemental Fluorine in Liquid Perfluorodecalin

A direct fluorination technique was applied for the surface treatment of PIM-1 films in a liquid phase (perfluorodecalin). The fluorinated samples were analyzed by various instrumental techniques. ATR-IR spectroscopy showed that the fluorination predominantly takes place in methylene- and methyl-gro...

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Bibliographic Details
Published in:Polymers 2022-11, Vol.14 (23), p.5152
Main Authors: Belov, Nikolay A, Alentiev, Aleksandr Yu, Pashkevich, Dmitrii S, Voroshilov, Fedor A, Dvilis, Edgar S, Nikiforov, Roman Yu, Chirkov, Sergey V, Syrtsova, Daria A, Kostina, Julia V, Ponomarev, Igor I, Asanov, Igor P, Bogdanova, Yulia G
Format: Article
Language:English
Subjects:
Contact angle
Fluorination
Fluorine
Fluorine compounds
Free surfaces
Functional groups
Hydrophilicity
Infrared spectroscopy
Liquid phases
Perfluorodecalin
Permeability
Polymers
Potassium
Spectrum analysis
Surface energy
Surface layers
Surface treatment
VOCs
Volatile organic compounds
X ray photoelectron spectroscopy
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Summary:A direct fluorination technique was applied for the surface treatment of PIM-1 films in a liquid phase (perfluorodecalin). The fluorinated samples were analyzed by various instrumental techniques. ATR-IR spectroscopy showed that the fluorination predominantly takes place in methylene- and methyl-groups. Cyano-groups, aromatic hydrogens and the aromatic structure of the PIM-1 repeat unit were shown to be relatively stable at the fluorination conditions. XPS confirmed that the concentration of fluorine, as well as oxygen, in the near surface layer (~1 nm) increases with fluorination time. C1s and O1s surface spectra of the fluorinated PIM-1 samples indicated an appearance of newly-formed C-F and C-O functional groups. Scanning electron microscopy and X-ray energy-dispersive spectroscopy of the fluorinated PIM-1 samples showed an increase of the fluorine concentration at the surface (~0.1-1 μm) with the treatment duration. Analysis of the slices of the PIM-1 films demonstrated a decline of the fluorine content within several microns of the film depth. The decline increased with the fluorination time. A model of fluorine concentration dependence on the film depth and treatment duration was suggested. A change in the specific free surface energy as a result of PIM-1 fluorination was revealed. The fluorination time was shown to affect the surface energy (γ ), providing its shift from a low value (25 mJ∙m ), corresponding to tetrafluoroethylene, up to a relatively high value, corresponding to a hydrophilic surface.
ISSN:2073-4360
2073-4360
DOI:10.3390/polym14235152