Systems and methods of nanofiltration using graphene oxide

What is claimed is: 1. A nanofilter comprising: a first porous support plate; a second porous support plate; graphene oxide layers deposited between the first and the second porous support plates, wherein the graphene oxide layers have pore sizes different than pore sizes in the first and second support plates; an adjusting control to allow adjustment and to set at least one of pressure and distance between the first and second porous plates to compress and constrain the graphene oxide layers at a set position, the at least one of the pressure and the distance set based upon a desired filtration cutoff; and a programmable controller connected to the adjusting control, the controller configured to provide the adjustment to the adjusting control based upon programmed filtration cutoff states mapped to a separate distance set by the adjusting control. 2. The nanofilter of claim 1 , further comprising: a seal arranged between the first and second porous plates and surrounding the graphene oxide layers. 3. The nanofilter of claim 1 , further comprising: a first porous substrate filter between the graphene oxide layers and the first porous plate; and a second porous substrate filter between the graphene oxide and the second porous plate. 4. The nanofilter of claim 1 , further comprising: a support frame; a first flow channel arranged upstream of the first porous plate; and a second flow channel arranged downstream of the second porous plate. 5. The nanofilter of claim 1 , wherein the adjusting control is remotely operable. 6. The nanofilter of claim 1 , wherein the distance between the first and second porous plates is mapped against an interlayer gap size of the graphene oxide layers. 7. A nanofiltration system comprising: a filter including: a first porous support plate; a second porous support plate; graphene oxide layers deposited between the first and the second porous support plates, wherein the graphene oxide layers have pore sizes different than the first and second support plates; and an adjusting control to allow adjustment and to set at least one of pressure and distance between the first and second porous plates to compress and constrain the graphene oxide layers, the at least one of the pressure and the distance based upon a desired filtration cutoff; a programmable controller connected to the adjusting control, the controller configured to provide the adjustment to the adjusting control based upon programmed filtration cutoff states mapped to a separate distance set by the adjusting control; and a flow channel arranged tangentially to the filter. 8. The nanofiltration system of claim 7 , wherein the adjusting control includes a fine pitch screw. 9. The nanofiltration system of claim 7 , wherein the adjusting control includes an inch worm piezo element. 10. The nanofiltration system of claim 7 , wherein the adjusting control includes a spring mount. 11. The nanofiltration system of claim 7 , wherein the adjusting control includes a pneumatic element. 12. The nanofiltration system of claim 7 , further comprising: a second filter; and a second flow channel arranged tangentially to the second filter.