Polymer based permeable membrane for removal of ions
First Claim
1. A molecularly imprinted polymer membrane comprising a cross-linked polymer matrix having channels disposed therethrough, and with selective binding sites for phosphate anions on the interior thereof in communication with the exterior surface of said membrane by means of said channels, which thereby increase permeability and direct said phosphate anions to said binding sites.
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Abstract
Molecularly imprinted polymer membranes for selectively collecting phosphate, nitrate and ferric ions are disclosed, prepared by copolymerizing a matrix monomer, cross-linking agent, ion imprinting complex, permeability agent and polymerization initiator, after which the ions of the ion imprinting complex are permeability agent are removed. The permeability agent creates channels in the membrane permitting the ion binding sites in the membrane to communicate with the exterior surface of the membrane.
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Citations
9 Claims
- 1. A molecularly imprinted polymer membrane comprising a cross-linked polymer matrix having channels disposed therethrough, and with selective binding sites for phosphate anions on the interior thereof in communication with the exterior surface of said membrane by means of said channels, which thereby increase permeability and direct said phosphate anions to said binding sites.
- 4. A molecularly imprinted polymer membrane comprising a cross-linked polymer matrix having channels disposed therethrough and with selective binding sites for nitrate anions on the interior thereof in communication with the exterior surface of said membrane by means of said channels, which thereby increase permeability and direct said nitrate anions to said binding sites.
- 7. A molecularly imprinted polymer membrane comprising a cross-linked polymer matrix having channels disposed therethrough and with selective binding sites for ferric cations on the interior thereof in communication with the exterior surface of said membrane by means of said channels, which thereby increase permeability and direct said ferric cations to said binding sites.
Specification