Voltage-controlled anion exchange membrane enabling selective ion affinities for water desalination and device containing the same

What is claimed is: 1. A desalination device, comprising: a container configured to contain a saline water solution having a concentration of dissolved salts in the form of anions and cations; a first electrode and a second electrode arranged in a first compartment and a second compartment, respectively, of the container, the first and second electrodes configured to be arranged in fluid communication with the saline water solution; an anion exchange membrane (AEM) separating the first and second compartments, the AEM having a porous membrane structure and a plurality of negatively-charged oxygen functional groups coupled to the porous membrane structure; and a power source configured to selectively apply a voltage to one of the first and second electrodes, the AEM having a selective permeability when the voltage is applied such that the cations have a first diffusion rate d 1 therethrough and the anions have a second diffusion rate d 2 therethrough where 0≤d 1 <d 2 , wherein: the power source is configured to apply a membrane voltage to the AEM via an external circuit, the AEM configured to decrease the first diffusion rate d 1 of the cations through the AEM and increase the second diffusion rate d 2 of the anions through the AEM in response to the applied voltage; and there is no cation exchange membrane separating the first and second compartments. 2. The desalination device of claim 1 , wherein the porous membrane structure includes graphene oxide sheets. 3. The desalination device of claim 2 , wherein the plurality of negatively-charged oxygen functional groups includes one or more of hydroxyl groups and carboxylic groups. 4. The desalination device of claim 2 , wherein the plurality of negatively-charged oxygen functional groups includes one or more of epoxy groups and carbonyl groups. 5. The desalination device of claim 1 , wherein the power source is configured to controllably apply a membrane voltage in a range from 0 to ±0.5 V to provide a reversible reaction between the cations and the AEM. 6. The desalination device of claim 1 , wherein the AEM is configured such that a (de-)sorption voltage of the cations into and out of the AEM is in a range from −1.0 to 1.5 V relative to a standard hydrogen electrode. 7. The desalination device of claim 1 , wherein the porous membrane structure includes mono- and few-layer graphene, the layers having a range from 1 to 8 layers. 8. The desalination device of claim 1 , wherein the first and second electrodes are symmetric electrodes that contain an identical intercalation material. 9. The desalination device of claim 8 , wherein the intercalation material is one of doped or un-doped cubic spinel MnO 2 , tunnel-structured orthorhombic Na 4 Mn 9 O 18 , or NaM 2 (PO 4 ) 3 where M=Ti, Mn, Fe, Ni, Cu, or combinations thereof. 10. The desalination device of claim 1 , wherein the first and second electrodes are asymmetric electrodes each containing an electrode material comprised of a metal oxide, a concentration of alkali metal within the metal oxide configured to be different between the electrode materials.