Add to ORKGThe overall performance of optical equipment and devices is ultimately dependent on their transparency. This is especially evident when such devices are constantly exposed to varying environmental conditions. Thus the development of a robust, transparent and self-cleaning coating is highly desirable. This work discusses the inherent difficulties in the design of transparent self-cleaning coatings. Describing hydrophobicity and the potential challenges the achievement of transparency can introduce. Before detailing the various established methods of characterisation of super hydrophobic surfaces and outlining some of the group’s preliminary results
This paper investigates the stability of the Cassie state of wetting in transparent superhydrophobic...
The superhydrophilic self-cleaning surface can perfectly deal with oil pollution, which cannot be re...
The superhydrophilic self-cleaning surface can perfectly deal with oil pollution, which cannot be re...
The overall performance of optical equipment and devices is ultimately dependent on their transparen...
The overall performance of optical equipment and devices is ultimately dependent on their transparen...
With increasing focus on sustainable and environment friendly solutions for day-to-day applications,...
The non-wetting character derived with the lotus-leaf phenomenon of water droplet rolling off from l...
The investigations of superhydrophobicity and self-cleaning surfaces have been given a lot of attent...
This paper investigates the stability of the Cassie state of wetting in transparent superhydrophobic...
The superhydrophilic self-cleaning surface can perfectly deal with oil pollution, which cannot be re...
The superhydrophilic self-cleaning surface can perfectly deal with oil pollution, which cannot be re...
The superhydrophilic self-cleaning surface can perfectly deal with oil pollution, which cannot be re...
Cataloged from PDF version of article.This paper investigates the stability of the Cassie state of w...
The superhydrophilic self-cleaning surface can perfectly deal with oil pollution, which cannot be re...
The superhydrophilic self-cleaning surface can perfectly deal with oil pollution, which cannot be re...
This paper investigates the stability of the Cassie state of wetting in transparent superhydrophobic...
The superhydrophilic self-cleaning surface can perfectly deal with oil pollution, which cannot be re...
The superhydrophilic self-cleaning surface can perfectly deal with oil pollution, which cannot be re...
The overall performance of optical equipment and devices is ultimately dependent on their transparen...
The overall performance of optical equipment and devices is ultimately dependent on their transparen...
With increasing focus on sustainable and environment friendly solutions for day-to-day applications,...
The non-wetting character derived with the lotus-leaf phenomenon of water droplet rolling off from l...
The investigations of superhydrophobicity and self-cleaning surfaces have been given a lot of attent...
This paper investigates the stability of the Cassie state of wetting in transparent superhydrophobic...
The superhydrophilic self-cleaning surface can perfectly deal with oil pollution, which cannot be re...
The superhydrophilic self-cleaning surface can perfectly deal with oil pollution, which cannot be re...
The superhydrophilic self-cleaning surface can perfectly deal with oil pollution, which cannot be re...
Cataloged from PDF version of article.This paper investigates the stability of the Cassie state of w...
The superhydrophilic self-cleaning surface can perfectly deal with oil pollution, which cannot be re...
The superhydrophilic self-cleaning surface can perfectly deal with oil pollution, which cannot be re...
This paper investigates the stability of the Cassie state of wetting in transparent superhydrophobic...
The superhydrophilic self-cleaning surface can perfectly deal with oil pollution, which cannot be re...
The superhydrophilic self-cleaning surface can perfectly deal with oil pollution, which cannot be re...