Wetting of electrospun nylon-11 fibers and mats

Wetting of electrospun mats plays a huge role in tissue engineering and filtration applications. However, it is challenging to trace the interrelation between the wetting of individual nano-sized fibers and the macroscopic electrospun mat. Here we measured the wetting of different nylon-11 samples -...

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Bibliographic Details
Published in:RSC advances 2021-03, Vol.11 (19), p.11373-11379
Main Authors: Bagrov, Dmitry, Perunova, Svetlana, Pavlova, Elizaveta, Klinov, Dmitry
Format: Article
Language:English
Subjects:
Aluminum
Chemistry
Contact angle
Electrospinning
Fibers
Metal foils
Nylon 11
Substrates
Tissue engineering
Wetting
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Summary:Wetting of electrospun mats plays a huge role in tissue engineering and filtration applications. However, it is challenging to trace the interrelation between the wetting of individual nano-sized fibers and the macroscopic electrospun mat. Here we measured the wetting of different nylon-11 samples - solution-cast films, electrospun fibers deposited onto a substrate, and free-standing mats. With electrospun nylon-11 on aluminium foil, we traced the dependence of the wetting contact angle on the fibers' surface density (substrate coverage). When the coverage was low, the contact angle increased almost linearly with it. At ∼17-20% coverage, the contact angle achieved its maximum of 124 ± 7°, which matched the contact angle of a non-woven electrospun mat, 126 ± 2°. Our results highlight the importance of the outermost layer of fibers for the wetting of electrospun mats. When the surface density of electrospun nylon-11 fibers on aluminium increases, it causes a two-stage change in the wetting behaviour.
ISSN:2046-2069
2046-2069
DOI:10.1039/d0ra10788c