Methods of making metal-oxides and uses thereof for water treatment and energy applications

What is claimed is: 1 . A water treatment system comprising: a contaminated water inlet; a reaction chamber fluidly connected to the inlet; a polymer-TiO 2 composite comprising an anatase covalently linked to rutile (p-TiO 2 anatase:rutile) in the reaction chamber; a source of UV or visible light that contacts the nanomaterials; and a treated water outlet fluidly connected to the reaction chamber, wherein a contaminated water stream enter the reaction chamber through the contaminated water inlet and is contacted with the p-TiO 2 anatase:rutile, exposing the p-TiO 2 anatase:rutile and the contaminated water to the light from the UV or visible light source to form a hole in the valance of the p-TiO 2 anatase:rutile upon contact with UV or visible light wherein the hole generates OH., and collecting treated water through the treated water outlet. 2 . The water treatment system of claim 1 , further comprising an acid chamber comprising an acidic solution for lowering the pH of the solution. 3 . The water treatment system of claim 1 , further comprising a base chamber comprising a basic solution for increasing the pH of sedimented p-TiO 2 anatase:rutile. 4 . The system of claim 1 , wherein the UV or visible light is natural or artificial. 5 . The system of claim 1 , wherein the p-TiO 2 anatase:rutile comprises powder or nanoparticles. 6 . The system of claim 1 , wherein the p-TiO 2 anatase:rutile is bound to the walls of the chamber. 7 . The system of claim 1 , wherein the p-TiO 2 anatase:rutile is packed within the chamber between the inlet and the outlet. 8 . A method of treating contaminated water comprising flowing contaminated water through the system of claim 1 and exposing the contaminated water to UV or visible light while the contaminated water is in contact with the p-TiO 2 anatase:rutile.