@Article{jrm.2023.025899,
AUTHOR = {Nurul Anis Athirah Ab Aziz, Chin Wei Lai, Boon Hoong Ong},
TITLE = {A Review of Graphene Oxide Crosslinking as Enhanced Corrosion Shield Application},
JOURNAL = {Journal of Renewable Materials},
VOLUME = {11},
YEAR = {2023},
NUMBER = {6},
PAGES = {2745--2770},
URL = {http://www.techscience.com/jrm/v11n6/52258},
ISSN = {2164-6341},
ABSTRACT = {Nowadays, corrosion is not only undesirable, but it also has a significant influence on the industrial sectors and
technical innovations that have demand for metals. The global economic damage is expected to reach $2.5 trillion,
equivalent to more than 3.4% of the world’s GDP in 2013. It is linked with significant financial harm, manufacturing pollution, and safety issues. An electrochemical process primarily induces metal corrosion at the metalelectrolyte interface region, caused by steel oxidation and the reduction of oxygen, protons, and water. Therefore,
organic and epoxy coatings can be applied as protective coatings. Additionally, it can prevent metal corrosion in
various fields due to its unique properties, like the ability to manage its curing process over a long period. This
review paper focuses on improving the physicomechanical properties of modified graphene oxide (GO) coating by
attaching a polymer, epoxy resin (EP). Moreover, we reviewed recent achievements for different methods in minimizing a corrosion phenomenon. Further, we considered the modification of epoxy resin using the curing agent as
a bridge to the polymer to strengthen the functionalization of nanocomposites during the reaction. Afterward, we
discussed the relationship between the modified GO/EP anticorrosive coating and physicomechanical properties
since it is currently being questioned and remains unresolved. As a result, extensive studies on the mechanism of
synthesis of the modified GO/EP anticorrosive coating were highlighted.},
DOI = {10.32604/jrm.2023.025899}
}