Patent ID: 7758755

Claim:
A method of filtering contaminated water, comprising: providing a quantity of water containing a quantity of a contaminant; contacting the quantity of water with an amount of a water soluble dendritic macromolecules sufficient to bind at least a portion of the contaminant to produce a quantity of contaminant-bound dendritic macromolecules; filtering the quantity of contaminant-bound dendritic macromolecules from the quantity of water, comprising the step of passing the water through a first filtration membrane having pores or channels smaller than the contaminant-bound dendritic macromolecules but larger than the contaminant and larger than a water molecule, wherein the contaminant-bound dendritic macromolecules are retained on the up-stream side of the first filtration membrane, whereby a quantity of filtered water is produced; wherein the contaminant is selected from the group consisting of Co(II), Ag(I), Fe(III), Ni(II), ClO 4 − , TcO 4 − , and NO 3 − ; and wherein the dendritic macromolecule comprises: a core; a plurality of arms extending from the core, the arms having a branched structure including a plurality of interior secondary branches; within the interior secondary branches, a plurality of interior branch points, each interior branch point comprising an interior functional group including a nitrogen or oxygen atom with a free electron pair capable of binding with a proton when the dendritic macromolecule is in an acidic aqueous environment; a plurality of terminal ends, each linked to an interior secondary branch; and zero valent iron embedded within the dendritic macromolecule; wherein, when the dendritic macromolecule is placed within a first aqueous solution with a first pH between 1 and 11, and the first aqueous solution is loaded with a mass of the contaminant of about one gram of contaminant per gram of dendritic macromolecule, the extent of binding is at least twice as great as when the dendritic macromolecule is placed within a second aqueous solution with a second pH between 1 and 11, and the second aqueous solution is loaded with the mass of the contaminant.