Affiliation:
1. Université Mohammed VI Polytechnique
2. Mohammed VI Polytechnic University
Abstract
Abstract
Creating nanopores in graphene is a powerful tool for engineering its properties. Nanopores in graphene tune their electrical, optical, magnetic, and mechanical properties. However, controlling nanopores formation at the nanoscale level remains a significant challenge. We report an easy method to control nanopore sizes using argon-plasma magnetron sputtering. By calculating and measuring Raman spectra, we show that the nano-pores in graphene are controllable and size-tunable. Furthermore, we report that the graphene Raman mode around 1450 cm-1 is only due to nanopores and was attributed to the substrate effect.
Here, we also propose a novel graphene device-based water filtration. Our proposed concept of two graphene electrodes with nanopores on the substrate (SiC and SiO2) makes it possible to have the highest permeability value, keeping a 100 % salt rejection and improving its mechanical properties. These reported results are essential for developing water desalination membranes based on graphene devices.
Publisher
Research Square Platform LLC
Reference27 articles.
1. "Reassessing the projections of the world water development report;Boretti Alberto;NPJ Clean Water,2019
2. Oviroh, Peter Ozaveshe, et al. "Nanoporous MoS2 membrane for water desalination: a Molecular Dynamics Study." Langmuir 37.23 (2021): 7127–7137.
3. Oviroh, Peter Ozaveshe, et al. "Nanoporous MoS2 membrane for water desalination: a Molecular Dynamics Study." Langmuir 37.23 (2021): 7127–7137.
4. Grossman. "Water desalination across nanoporous graphene;Cohen-Tanugi David;Nano letters,2012
5. "Graphene membranes for water desalination.";Homaeigohar Shahin;NPG Asia Materials,2017