79 research outputs found
Wettability Switching Techniques on Superhydrophobic Surfaces
The wetting properties of superhydrophobic surfaces have generated worldwide research interest. A water drop on these surfaces forms a nearly perfect spherical pearl. Superhydrophobic materials hold considerable promise for potential applications ranging from self cleaning surfaces, completely water impermeable textiles to low cost energy displacement of liquids in lab-on-chip devices. However, the dynamic modification of the liquid droplets behavior and in particular of their wetting properties on these surfaces is still a challenging issue. In this review, after a brief overview on superhydrophobic states definition, the techniques leading to the modification of wettability behavior on superhydrophobic surfaces under specific conditions: optical, magnetic, mechanical, chemical, thermal are discussed. Finally, a focus on electrowetting is made from historical phenomenon pointed out some decades ago on classical planar hydrophobic surfaces to recent breakthrough obtained on superhydrophobic surfaces
NemateriÄlo aktÄ«vu grÄmatvedÄ«bas metodoloÄŁiskÄs problÄmas Latvijas RepublikÄ
Nonfluorinated hydrophobic surfaces
are of interest for reduced
cost, toxicity, and environmental problems. Searching for such surfaces
together with versatile processing, A200 silica nanoparticles are
modified with an oligodimethylsiloxane and used by themselves or with
a polymer matrix. The goal of the surface modification is controlled
aggregate size and stable suspensions. Characterization is done by
NMR, microanalysis, nitrogen adsorption, and dynamic light scattering.
The feasibility of the concept is then demonstrated. The silica aggregates
are sprayed in a scalable process to form ultrahydrophobic and imperceptible
coatings with surface topographies of controlled nanoscale roughness
onto different supports, including nanofibrillated cellulose. To improve
adhesion and wear properties, the organosilica was mixed with polymers.
The resulting composite coatings are characterized by FE-SEM, AFM,
and contact angle measurements. Depending on the nature of the polymer,
different functionalities can be developed. PolyÂ(methyl methacrylate)
leads to almost superhydrophobic and highly transparent coatings.
Composites based on commercial acrylic car paint show âpearl-bouncingâ
droplet behavior. A light-emitting polyfluorene is synthesized to
prepare luminescent and water repellent coatings on different supports.
The interactions between polymers and the organosilica influence coating
roughness and are critical for wetting behavior. In summary, the feasibility
of a facile, rapid, and fluorine-free hydrophobization concept was
successfully demonstrated in multipurpose antiwetting applications
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