Filtering article containing titania nanotubes

What is claimed: 1. A filtering article comprising: i) a pellet of powders, the powders comprising bundles of hollow titania nanotubes; and ii) a freestanding array of hollow titania nanotubes aligned in parallel, wherein the pellet and the freestanding array are integrated together in the filtering article. 2. The filtering article of claim 1 , wherein in the pellet of powders, at least some of the bundles have a length of at least about 1 micron. 3. The filtering article of claim 1 , wherein the freestanding array has a topographical surface area of at least 1 cm 2 . 4. The filtering article of claim 1 , wherein the pellet has a diameter of at least 1 cm. 5. The filtering article of claim 1 , wherein a side of the filtering article exposed to a material to be filtered comprises the freestanding array. 6. The filtering article of claim 1 , wherein at least some of the hollow nanotubes of the pellet or freestanding array are functionalized by at least one of a hydrophobic material and an oleophobic material. 7. The filtering article of claim 1 , wherein the filtering article is permeable to water at transmembrane pressures below about 1 atm. 8. The filtering article of claim 1 , wherein the hollow titania nanotubes of the pellet or freestanding array comprise anodized titanium. 9. An article comprising the filtering article of claim 1 , wherein the filtering article is at least one of a water filtration membrane, a water-oil separation membrane, and a liquid chromatography column. 10. The filtering article of claim 1 , wherein in the pellet of powders, at least some of the bundles have a width of at least 1 micron. 11. The filtering article of claim 1 , wherein in the pellet of powders, at least some of the hollow titania nanotubes have a diameter between about 25 nm and about 50 nm. 12. The filtering article of claim 1 , wherein in the freestanding array, at least some of the hollow titania nanotubes have a diameter between about 60 nm and about 300 nm. 13. The filtering article of claim 1 , wherein in the freestanding array, at least some of the hollow titania nanotubes have a length of at least about 1 micron. 14. The filtering article of claim 1 , wherein the pellet has a thickness of at least 1 mm. 15. The filtering article of claim 1 , wherein the freestanding array is on top of the pellet, and the array and pellet are sealed at an edge. 16. The filtering article of claim 1 , wherein the pellet and the freestanding array are separate components in the filtering article such that a fluid to be filtered passes through the pellet and the freestanding array in consecutive filtering components. 17. A method of separating a filtrate from a fluid containing the filtrate, the method comprising: exposing the fluid to a filtering article, wherein the filtering article comprises: i) a pellet of powders, the powders comprising bundles of hollow titania nanotubes; and ii) a freestanding array of hollow titania nanotubes aligned in parallel; wherein the pellet and the freestanding array are integrated together in the filtering article; and wherein the fluid is exposed to the freestanding array prior to the powders. 18. The method of claim 17 , wherein exposing the fluid to a filtering article is carried out at a pressure below about 6 atm. 19. A method of making a filtering article, the method comprising: (i) anodizing titanium in an aqueous electrolyte solution to form powders comprising bundles of hollow titania nanotubes, the aqueous electrolyte solution comprising at least about 1 mM chloride and having a pH from about 1 to about 7; (ii) forming the powders into a pellet; (iii) anodizing titanium in a non-aqueous electrolyte solution to form a freestanding array of hollow titania nanotubes aligned in parallel, the non-aqueous electrolyte solution comprising at least about 1 mM fluoride; and (iv) integrating the pellet and freestanding array together to make the filtering article. 20. The method of claim 19 , further comprising functionalizing at least some of the hollow titania nanotubes of the pellet or freestanding array with at least one of a hydrophobic material and an olephobic material.