Metastable wetting model of electrospun mats with wrinkled fibers

[Display omitted] •Metastable state of the liquid on wrinkled electrospun mats has been investigated.•Analytical model of apparent contact angle has been proposed and validated.•3D input parameters obtained via X-ray microCT analysis served as key inputs.•Theoryandexperimentsare in good agreement.•A...

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Bibliographic Details
Published in:Applied surface science 2021-06, Vol.551, p.149147, Article 149147
Main Authors: Rawal, Amit, Shukla, Siddharth, Sharma, Sumit, Singh, Danvendra, Lin, Yi-Min, Hao, Junli, Rutledge, Gregory C., Vásárhelyi, Lívia, Kozma, Gábor, Kukovecz, Akos, Janovák, László
Format: Article
Language:English
Subjects:
Analytical model
Electrospun
Metastable
Wetting
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Summary:[Display omitted] •Metastable state of the liquid on wrinkled electrospun mats has been investigated.•Analytical model of apparent contact angle has been proposed and validated.•3D input parameters obtained via X-ray microCT analysis served as key inputs.•Theoryandexperimentsare in good agreement.•A 'doubly re-entrant' structure has been successfully created on electrospun fibers. Electrospun mats with targeted wettability are a way forward to diversify their mainstream applications and can facilitate in creating a platform for a remarkable set of properties. Limited control over the fiber morphology and surface chemistry, along with the complex architecture of electrospun mats, pose some of the key challenges for maneuvering the wettability. Herein, we present the design principles that underpin the key determinants responsible for a metastable state of a water droplet on electrospun mats possessing wrinkled surface topography. A ‘first-of-its-kind’ analytical model of apparent contact angle based on the modified Cassie-Baxter state has been proposed that accounts for the dual-scale roughness originating from fiber wrinkles and protuberances created by fiber–fiber contacts. Three-dimensional (3D) fiber and structural parameters obtained via X-ray microcomputed tomography (microCT) analysis served as key inputs for predictive modeling. The analytical model of the apparent advancing and receding contact angles has been validated with electrospun mats having well-defined orientation characteristics. In general, the theory and experiments are in reasonable agreement. Although similar magnitudes of static and advancing contact angles of water on surfaces of randomly and aligned electrospun mats have been experimentally observed, the receding contact angles differed significantly.
ISSN:0169-4332
1873-5584
DOI:10.1016/j.apsusc.2021.149147