Curtin University researchers have recently shown that applying a thin (and of course, invisible) layer of graphene oxide to silicon forms an impermeable barrier, which could be used to protect artwork, prevent corrosion of metals, and produce higher efficiency solar cells.
Lead author, Dr. Nadim Darwish from Curtin’s School of Molecular Life Sciences, said while protective layers on silicon were already used as an efficiency enhancer in devices such as solar cells and microchips, the procedure for forming these protective coatings was complicated and required highly specialized fabrication laboratories.
We found the graphene oxide protects silicon from ambient oxygen for at least 30 days, which is a significant step forward in applying the properties of 2D materials such as graphene and graphene oxide to make silicon even more efficient and useful.
Research co-author PhD student Soraya Rahpeima, also from Curtin’s School of Molecular Life Sciences said the new method could potentially enable development of new types of solar cells for more efficient generation and supply of power along with many applications in electronics.
This breakthrough opens a whole new realm of possibilities even beyond silicon research, Ms. Rahpeima said.
For example, graphene and graphene oxide can be used to protect sensitive materials from gases and ambient environments including ultraviolet light... A thin, invisible, and flexible layer when applied to artwork such as valuable paintings and stamps could potentially protect them from harmful light and moisture and other damaging elements contained in air without the need to cover the artwork with thick glass or protective layers that diminish the beauty of the artwork.
In July 2021, A team of researchers from the Institute of Chemical Engineering Sciences of Foundation for Research and Technology-Hellas (FORTH/ ICE-HT), the Department of Chemical Engineering of the University of Patras, and the Center for Colloid and Surface Science (CSGI) of the University of Florence, set out to use 'graphene veils' for the protection of paintings against environmental degradation.