System and method for using ultramicroporous carbon for the selective removal of nitrate with capacitive deionization

What is claimed is: 1. An ultramicroporous electrode for use in a flow through, capacitive deionization (FTE-CDI) system for adsorbing nitrate ions contained in water being fed into the electrode for treatment, the electrode comprising: a carbon aerogel member having a hierarchical pore size distribution, the hierarchical pore size distribution including: a first plurality of ultramicropores each having a shape forming a slit, and substantially all of the first plurality of ultramicropores being below 1 nm in width and forming a slit-like shape; and a second plurality of pores distributed throughout the thickness of the carbon aerogel member and being sufficiently large to enable fluid flow paths to be formed through the carbon aerogel member, which enable a flow of water to be pushed through the carbon aerogel member; the first plurality of ultramicropores configured to selectively capture nitrate ions carried in the water flowing through the carbon aerogel member; and wherein the first plurality of ultramicropores collectively provide a total pore volume of approximately 0.3 cm 3 /g and collectively provide a total pore area of about 1084 m 2 /g when the first plurality of ultramicropores are substantially all below 1 nm in width. 2. The ultramicroporous electrode of claim 1 , wherein the first plurality of ultramicropores is distributed throughout the thickness of the carbon aerogel member. 3. The ultramicroporous electrode of claim 1 , wherein the second plurality of pores each comprise micron-sized pores. 4. The ultramicroporous electrode of claim 3 , wherein the second plurality of micron-sized pores are distributed throughout the thickness of the carbon aerogel member. 5. The ultramicroporous electrode of claim 4 , wherein the second plurality micron-sized pores enable the flow of water to be pushed through the entire thickness of the carbon aerogel. 6. The ultramicroporous electrode of claim 1 , wherein the first plurality of ultramicropores each form an adsorption site for capturing the nitrate ions. 7. An ultramicroporous electrode for use in a flow through, capacitive deionization (FTE-CDI) system for adsorbing nitrate ions contained in water being fed into the electrode for treatment, the electrode comprising: a carbon aerogel member having a hierarchical pore size distribution, the hierarchical pore size distribution including: a first plurality of ultramicropores each shaped as a slit and each having a width configured to selectively capture a nitrate ion, and the slits being distributed throughout a thickness of the carbon aerogel member, and each one of the first plurality of ultramicropores having a width of no more than about 1 nm, and wherein the first plurality of ultramicropores collectively provide a total pore volume of 0.3 cm 3 /gram and collectively provide a total pore area of 1084 m 2 /g; and a second plurality of pores distributed throughout the thickness of the carbon aerogel member, and being sufficiently large to enable fluid flow paths to be formed through the entire thickness of the carbon aerogel member, which enable a flow of water to be pushed through the thickness of the carbon aerogel member; and the first plurality of ultramicropores operating to form adsorption sites to selectively capture nitrate ions carried in the water flowing through the carbon aerogel member. 8. The ultramicroporous electrode of claim 7 , wherein the first plurality of ultramicropores are distributed throughout the carbon aerogel member. 9. The ultramicroporous electrode of claim 7 , wherein the second plurality of pores comprise pores on the order of microns in size. 10. The ultramicroporous electrode of claim 9 , wherein the micron-sized pores are distributed throughout the thickness of the carbon aerogel member.