Add to ORKGAbstract: Graphene membrane is a promising technology to help both carbon dioxide separation from flue gas and water desalination. This work reported the importance of membrane separation processes, the evolution of polymeric membranes before the discovery of graphene and how this material fits into this scenario. In addition, reverse osmosis and gas separations have been discussed as promising methods to reduce the occurrence of freshwater scarcity events and slow global warming. For all these separation techniques, the current state of graphene membranes technology and what advances might be brought by such one atom thick skin layer were presented, as well as the results of theoretical and experimental research. Finally, the challenges th...
Graphene-based membranes have unique nanochannels and can offer advantageous properties for the wate...
Many materials with varied characteristics have been used for water purification and separation appl...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2017.Pa...
Recently, graphene-based membranes have been extensively studied, represented by two distinct resear...
We discuss here next-generation membranes based on graphene for water desalination, based on the res...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Materials Science and Engineeri...
Graphene is a popular material with outstanding properties due to its single layer. Graphene and its...
Membrane-based separation technology has attracted great interest in many separation fields due to i...
Increasing demand to strengthen energy security has increased the importance of natural gas sweeteni...
Membrane separation technology is one of the most cost-effective methods for gas separation which ca...
Abstract We discuss here next-generation membranes based on graphene for water desalination, based o...
The widespread use of low dimensional carbon membrane for desalination and gas separation is limited...
Increasing concentration of carbon dioxide (CO2) in the atmosphere is responsible for global warming...
This paper presents a critical review and the state of the art of graphene porous membranes, a brand...
Although almost 70% of the world is covered by water, less than 3% is fresh. The remainder—most of t...
Graphene-based membranes have unique nanochannels and can offer advantageous properties for the wate...
Many materials with varied characteristics have been used for water purification and separation appl...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2017.Pa...
Recently, graphene-based membranes have been extensively studied, represented by two distinct resear...
We discuss here next-generation membranes based on graphene for water desalination, based on the res...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Materials Science and Engineeri...
Graphene is a popular material with outstanding properties due to its single layer. Graphene and its...
Membrane-based separation technology has attracted great interest in many separation fields due to i...
Increasing demand to strengthen energy security has increased the importance of natural gas sweeteni...
Membrane separation technology is one of the most cost-effective methods for gas separation which ca...
Abstract We discuss here next-generation membranes based on graphene for water desalination, based o...
The widespread use of low dimensional carbon membrane for desalination and gas separation is limited...
Increasing concentration of carbon dioxide (CO2) in the atmosphere is responsible for global warming...
This paper presents a critical review and the state of the art of graphene porous membranes, a brand...
Although almost 70% of the world is covered by water, less than 3% is fresh. The remainder—most of t...
Graphene-based membranes have unique nanochannels and can offer advantageous properties for the wate...
Many materials with varied characteristics have been used for water purification and separation appl...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2017.Pa...