Estimation of surface roughness for transparent superhydrophobic coating through image processing and machine learning

In the current era, superhydrophobic surfaces/coatings have gained significant attention worldwide due to their exclusive features such as self-cleaning, anti-corrosion, anti-adhesion, anti-reflection, and anti-icing, etc. The idea of the self-cleaning mechanism of superhydrophobic coatings has emer...

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Bibliographic Details
Published in:Molecular Crystals and Liquid Crystals 2022-01, Vol.726 (1), p.90-104
Main Authors: Hooda, Amrita, Kumar, Adesh, Goyat, Manjeet Singh, Gupta, Rajeev
Format: Article
Language:English
Subjects:
Algorithms
Bacteria
Cleaning
Cluster analysis
Clustering
Coatings
Contact angle
Corrosion mechanisms
Corrosion prevention
Deicing
Digital image processing
Droplets
electron microscopy
Emission analysis
Field emission microscopy
Hydrophobic surfaces
Hydrophobicity
Image processing
Image segmentation
K-means clustering
Machine learning
Nanoparticles
Polystyrene resins
Silicon dioxide
Sol-gel processes
superhydrophobic coating
Surface roughness
Vector quantization
Water drops
Zinc oxide
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Summary:In the current era, superhydrophobic surfaces/coatings have gained significant attention worldwide due to their exclusive features such as self-cleaning, anti-corrosion, anti-adhesion, anti-reflection, and anti-icing, etc. The idea of the self-cleaning mechanism of superhydrophobic coatings has emerged from the self-cleaning effect of lotus plant leaves. The superhydrophobic surfaces have a great ability to eliminate dust, bacteria, and viruses due to the very large contact angle (> 150°) between the surface and the water droplets. The present study is based on the surface roughness estimation of field emission scanning electron microscope (FESEM) images of the developed superhydrophobic coatings via image processing and machine learning approach. Transparent superhydrophobic coatings of functionalized SiO 2 nanoparticles embedded polystyrene (PS) and dual functionalized ZnO nanoparticles embedded PS were prepared using a modified sol-gel approach. The superhydrophobicity of the synthesized coatings was realized by the large contact angles of more than 150 ° between water droplets and the coatings. The FSESM images of the superhydrophobic coatings were processed using MATLAB 2018 image processing and machine learning tool to compute the roughness by computational algorithms. The discrete wavelet processing was used for image segmentation, and k-means clustering was applied for predicting the roughness score against different compositions of the coatings. The computational methods exhibited ∼ 91.70% accuracy of the surface roughness estimation of the coatings.
ISSN:1542-1406
1563-5287
1527-1943
DOI:10.1080/15421406.2021.1935162