Superhydrophobic graphene-based materials with self-cleaning and anticorrosion performance: An appraisal of neoteric advancement and future perspectives
Date
2020Author
A, Jishnu
Jayan, Jitha S
Saritha, Appukuttan
A.S., Sethulekshmi
Venu, Gopika
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Abstract
Lotus like materials having superhydrophobicity is attaining greater demand due to the possibility
of molding them into different high end applications. The major issue related to self-cleaning
superhydrophobic surfaces is their restricted mechanical properties. The development of
nanotechnology has brought many advantages in the fabrication and properties of
superhydrophobic surfaces and thus it enhanced the demand of superhydrophobic surfaces. Many
scientific groups have studied and reported about the superhydrophobicity exhibited by graphene and its analogous derivatives. The fabrication of the devices having properties ranging from antisticking and self-cleaning to anti-corrosion and low friction is made possible by the incorporation
of this wonderful two-dimensional material. This review focuses on the preparation and
properties of graphene based superhydrophobic coating materials with special mention to the
wide range of applications rendered by them.
Palabras clave
Graphene; Superhydrophobic; Contact angle; Self-cleaning; Anti-CorrosionLink to resource
https://doi.org/10.1016/j.colsurfa.2020.125395Collections
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