Functional water-soluble polymers: polymer-metal ion removal and biocide properties

Water-soluble polymers have attracted much interest due to their potential applications in environmental protection engineering to remove harmful pollutants and in biomedicine in the areas of tissue engineering, within-body implants or other medical devices, artificial organ prostheses, ophthalmology, dentistry, bone repair, and so on. In this review, particular emphasis is given to the ability of water-soluble polymers with amine, amide, carboxylic acid, hydroxyl and sulfonic acid functional groups to remove metal ions by means of the liquid-phase polymer-based retention (LPR) technique that combines the use of water-soluble polymers and ultrafiltration membranes. The second part is dedicated to showing the potential application of functional water-soluble polymers and their polymer-metal complexes as biocides for various bacteria. These polymers and polymer-metal complexes show an efficient bactericide activity, especially to Gram-negative bacteria, Staphylococcus aureus reaching concentrations lower than 4 mu g mL(-1). This activity depends on polymer size, type of metal ion, contact time and concentration of polymer and metal ion. The discussion reveals that in the case of the LPR process the efficiency of metal ion removal depends strongly on the type of polymer functional group and the feed pH value. In general, two mechanisms of ion entrapment are suggested: complex formation and electrostatic interaction. In the case of the medical use of water-soluble polymers and their complexes with metal ions, the review documents the unique bactericide properties of the investigated species. The polymer-metal ion complexes show a reduced genotoxic activity compared with free metal ions. (C) 2009 Society of Chemical Industry