Graphene-based membrane and method of preparation thereof

What is claimed is: 1. A method of separating hydrated ions from a fluid stream, the method comprising: providing a plurality of graphene-based membranes, each graphene-based membrane comprising a stacked arrangement of layers of a graphene-based material, the layers of the graphene-based material defining one or more nanochannels between neighboring layers, chemically engineering one or more of the plurality of graphene-based membranes to possess a desired electrical charge to increase a filtering efficiency for hydrated anions at substantially a same size of the one or more nanochannels for maintaining a desired flow though the graphene-based membrane, chemically engineering one or more of the plurality of the graphene-based membranes to possess a desired electrical charge to increase a filtering efficiency for hydrated cations at substantially a same size of the one or more nanochannels for maintaining a desired flow though the graphene based membrane, disposing the plurality of graphene-based membranes such that one or more adjacent cell pairs are provided, each cell pair comprising one graphene-based membrane for filtering the anions and one graphene-based membrane for filtering the cations separated by a passageway, and directing a fluid stream comprising the hydrated ions through the respective passageways for filtering of the hydrated ions from the fluid stream. 2. The method according to claim 1 , wherein directing the fluid stream comprising the hydrated ions through the respective passageways is carried out with an electrical field. 3. The method according to claim 2 , wherein the method of separating the hydrated ions from the fluid stream is applied to electrodialysis. 4. The method according to claim 1 , wherein chemically engineering each graphene-based membrane comprises at least one of (i) varying polarity of the electrical charge; (ii) varying magnitude of the electrical charge, or (iii) arranging layers of opposite electrical charges in the stacked arrangement. 5. The method according to claim 1 , wherein chemically engineering the graphene-based membranes comprises carrying out at least one of (i) a chemical substitution process on the graphene-based material, (ii) a reduction process on the graphene-based material, or (iii) contacting the graphene-based material with a liquid reagent and varying molarity and/or pH of the liquid reagent. 6. The method of claim 2 , wherein the electric field is applied across the plurality of graphene-based membranes in a direction substantially perpendicular to a direction of the fluid stream. 7. The method of claim 1 , wherein filtering the hydrated ions from the fluid stream comprises forming a dilute stream where the hydrated ions have been substantially removed and a concentrate stream containing the hydrated ions. 8. The method of claim 1 , wherein the graphene-based membranes for filtering the anions and the graphene-based membranes for filtering the cations are arranged in an alternating arrangement between an anode and a cathode. 9. The method of claim 8 , wherein the membrane positioned nearest to the anode assumes a positive charge and the membrane positioned nearest to the cathode assumes a negative charge.