Application of Micro/Nanoporous Fluoropolymers with Reduced Bioadhesion in Digital Microfluidics

Goralczyk, Andreas; Bhagwat, Sagar; Mayoussi, Fadoua; Nekoonam, Niloofar; Sachsenheimer, Kai; Hou, Peilong; Kotz‐Helmer, Frederik; Helmer, Dorothea; Rapp, Bastian E.

doi:10.3390/nano12132201

Cited by 3 publications

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“…The preparation of repellent surfaces was achieved based on a modified preparation of previously reported Fluoropor foams [18][19][20][21][22]. Fluoropor is based on fluorinated methacrylates mixed with porogens.…”

Section: Superrepellent Wrinkled Porous Polymersmentioning

confidence: 99%

“…When the micro-/nanostructure is introduced throughout the bulk, the superhydrophobicity is preserved after abrasion, as the material removal exposes a similar surface structure [16,17]. Fluoropor, which was pioneered by our group, is a micro-/nanoporous fluoropolymer with a bulk porosity that makes it insensitive to abrasion [18][19][20][21][22]. The bulk porosity is achieved by using a porogen mixture that contains an emulsifier and a nonsolvent.…”

Section: Introductionmentioning

confidence: 99%

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Superrepellent Porous Polymer Surfaces by Replication from Wrinkled Polydimethylsiloxane/Parylene F

et al. 2022

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Superrepellent surfaces, such as micro/nanostructured surfaces, are of key importance in both academia and industry for emerging applications in areas such as self-cleaning, drag reduction, and oil repellence. Engineering these surfaces is achieved through the combination of the required surface topography, such as porosity, with low-surface-energy materials. The surface topography is crucial for achieving high liquid repellence and low roll-off angles. In general, the combination of micro- and nanostructures is most promising in achieving high repellence. In this work, we report the enhancement of wetting properties of porous polymers by replication from wrinkled Parylene F (PF)-coated polydimethylsiloxane (PDMS). Fluorinated polymer foam “Fluoropor” serves as the low-surface-energy polymer. The wrinkled molds are achieved via the deposition of a thin PF layer onto the soft PDMS substrates. Through consecutive supercritical drying, superrepellent surfaces with a high surface porosity and a high water contact angle (CA) of >165° are achieved. The replicated surfaces show low roll-off angles (ROA) <10° for water and <21° for ethylene glycol. Moreover, the introduction of the micro-wrinkles to Fluoropor not only enhances its liquid repellence for water and ethylene glycol but also for liquids with low surface tension, such as n-hexadecane.

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