Examples of 'superhydrophobic' in a sentence
Meaning of "superhydrophobic"
Superhydrophobic: used to describe a surface or material that repels water to a high degree
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- Very hydrophobic; used especially to describe materials having surfaces that are very difficult to wet, and have a water contact angle greater than 150°
How to use "superhydrophobic" in a sentence
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superhydrophobic
Superhydrophobic is how we measure a drop of water on a surface.
The produced carbon nanotubes are superhydrophobic and superoleophilic.
Superhydrophobic coatings are used in dry surface application.
An example of a biomimetic superhydrophobic material in nanotechnology is nanopin film.
Superhydrophobic surfaces are ones that do not wet.
And at the bottom is a superhydrophobic silicon nanograss film.
The superhydrophobic particles can comprise a hydrophobic coating.
Mixtures of different types of superhydrophobic particles are also possible.
The superhydrophobic particles can be embedded within the resin.
Laser induced nano roughness exhibits superhydrophobic properties.
The superhydrophobic particle can comprise a diatomaceous earth particle.
These are called superhydrophobic surfaces.
Some hydrophobic coatings are being referred to in the art as superhydrophobic coatings.
The porous core of the superhydrophobic particles can be a silicate.
Patankar and other scientists have been investigating superhydrophobic surfaces.
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Each of the superhydrophobic particles can comprise a hydrophobic coating.
This affords a novel idea for preparing of superhydrophobic surfaces.
Creating the superhydrophobic surfaces can be achieved in many different ways.
The precursor powder can have a plurality of superhydrophobic particles.
Sirris successfully developed superhydrophobic coatings that are suitable to be in contact with food.
This is accomplished by adding superparamagnetic particles to a drop placed on a superhydrophobic surface.
Pancake bouncing on superhydrophobic surfaces.
The inner surface of the two or more cylindrical sections is superhydrophobic.
The porous core of the superhydrophobic particles can be hydrophilic.
Low surface energy coatings can also provide a superhydrophobic surface.
Superhydrophobic application was evaluated for different textured surfaces with different materials.
Nanostructured superhydrophobic coatings.
Those structuration protocols have been extrapolated to the study of superhydrophobic coatings.
The same is true for the superhydrophobic powder grain size.
A durable superhydrophobic coating capable of rendering a surface superhydrophobic would be extremely valuable.
There are many possible variations for depositing the superhydrophobic powder.
The superhydrophobic particles have a three dimensional surface topology comprising pores.
The surface structure may also be modified to implement a superhydrophobic surface.
Static WCAs of superhydrophobic surfaces as a function of the incubation time in different environments.
This led to conclude that the leaves of this plant species are superhydrophobic.
The resin into which the superhydrophobic particles are embedded can be hydrophobic.
In addition to fuel efficiency there are two other potential benefits of a superhydrophobic coating.
The superhydrophobic surface can be a surface according to any of the preceding embodiments.
The second chapter studies an air microbubbles generation process using superhydrophobic capillaries.
Active recent research on superhydrophobic materials might eventually lead to more industrial applications.
It is known that a smooth hydrophobic surface can be made superhydrophobic by creating roughness thereon.
The superhydrophobic areas can provide low surface energy sites to each particle.
Each resin marble can be covered with a plurality of superhydrophobic and resinphobic particles.
The superhydrophobic particle can include a porous core material and a hydrophobic coating.
The invention refers to a substrate having deposited thereon a superhydrophobic film according to the invention.
The superhydrophobic coating has a spongy mesh structure in the micro and nano ranges.
This illustration corresponds to a Cassie superhydrophobic state.
This keeps the pores of the superhydrophobic particles generally unclogged and full of air.
Rejuvenation process Various embodiments relate to a method of rejuvenating a superhydrophobic surface.
The superhydrophobic particles can have a three dimensional nanostructured surface topology defining pores.
