Method and apparatus for a porous electrospray emitter

What is claimed is: 1. An electrospray emitter comprising: a porous emitter body with a base and a tip, wherein a pore size gradient of the porous emitter body decreases in a direction from the base of the porous emitter body toward the tip of the porous emitter body. 2. The electrospray emitter of claim 1 , further comprising a source of ions in fluid communication with the porous emitter body. 3. The electrospray emitter of claim 2 , wherein the source of ions comprises at least one of an ionic liquid and a room-temperature molten salt. 4. The electrospray emitter of claim 2 , further comprising a first electrode electrically connected to the porous emitter body through the source of ions. 5. The electrospray emitter of claim 4 , further comprising a second electrode positioned downstream relative to the porous emitter body and the first electrode. 6. The electrospray emitter of claim 2 , wherein at least a portion of the porous emitter body is disposed in or on the source of ions such that the source of ions is transported by capillarity from the base of the porous emitter body to the tip of the porous emitter body. 7. The electrospray emitter of claim 1 , wherein when a voltage potential is applied to the porous emitter body ions are emitted by the porous emitter body and a source of ions is transported by capillarity from the base of the porous emitter body to the tip of the porous emitter body. 8. The electrospray emitter of claim 1 , wherein the porous emitter body comprises at least one of a metal, a dielectric material, and a xerogel. 9. The electrospray emitter of claim 1 , wherein pores of the porous emitter body have a diameter between or equal to about 3 μm and 50 μm. 10. The electrospray emitter of claim 1 , wherein a radius of curvature of the porous emitter body tip is between or equal to about 1 μm and 20 μm. 11. The electrospray emitter of claim 1 , wherein the porous emitter body is a flat ribbon-like needle. 12. An electrospray emitter comprising: a porous substrate; and a plurality of porous emitters, wherein each porous emitter extends up from the porous substrate to a tip, and wherein each porous emitter has a pore size gradient that decreases in a direction from the substrate toward the tip of the porous emitter. 13. The electrospray emitter of claim 12 , further comprising a source of ions in fluid communication with the plurality of porous emitters through the porous substrate. 14. The electrospray emitter of claim 13 , wherein the source of ions comprises at least one of an ionic liquid and a room-temperature molten salt. 15. The electrospray emitter of claim 13 , further comprising a first electrode electrically connected to the plurality of porous emitters through the source of ions. 16. The electrospray emitter of claim 15 , further comprising at least a second electrode positioned downstream relative to the porous emitters and the first electrode. 17. The electrospray emitter of claim 13 , wherein at least a portion of the porous emitter body is disposed in or on the source of ions such that the source of ions is transported by capillarity from the base of the porous emitter body to the tip of the porous emitter body. 18. The electrospray emitter of claim 12 , wherein when a voltage potential is applied to the porous emitters ions are emitted by the porous emitters and a source of ions is transported by capillarity from the substrate to the tip of each porous emitter. 19. The electrospray emitter of claim 12 , wherein the porous emitters and substrate comprise at least one of a metal, a dielectric material, and a xerogel. 20. The electrospray emitter of claim 12 , wherein pores of the porous emitters and substrate have a diameter between or equal to about 3 μm and 50 μm. 21. The electrospray emitter of claim 12 , wherein a radius of curvature of the tips of the porous emitters is between or equal to about 1 μm and 20 μm. 22. The electrospray emitter of claim 12 , wherein the substrate and porous emitters form a flat ribbon. 23. The electrospray emitter of claim 12 , wherein the plurality of porous emitters form an array on the porous substrate.