Abstract
Cellulose is of special interest due to its abundance in nature and it provides excellent materials for membranes both in native and derivatized forms. Graft copolymers of cellulose when used in separation and enrichment technologies have advantages over the conventional ones, due to chemical resistance, radiation stability and low cost of preparation. Cellulose based graft copolymers and hydrogels offer large hydrophilic area despite being insoluble in water and enrich or separate metal ion by binding, adsorption, chelation and ion exchange processes. Potential of cellulose as sorbent can be improved by radiation and chemical grafting, crosslinking and polymer analogous reactions on some graft copolymers. Grafting of suitable monomers with hydrophobic and hydrophilic/ionic moieties combine high degree of selectivity, permeability and longer stability, and enables complexation with low molecular weight species. Incorporation of functional groups like nitrile, hydrazino, hydroxamic acid and phosphate by derivatization and post polymer reactions enhances metal ion sorption capacity of Cellulosics. In present study an attempt has been made to study the sorption of Fe+2, Cu+2 and I2 on select graft copolymers of cellulose with N-Vinylpyrrolidone (1-Vinyl-2-prrolidone, N-VP) and Butyl Acrylate(BuAc) on to cellulose and some of their functionalized derivatives, on the basis of lowest to highest percent grafting (Pg). An attempt has also been made to investigate selectivity in metal ion sorption and effects of structural aspects of functionalized graft copolymers to find their end-uses as cost effective and eco-friendly polymeric materials for waste water management technologies.
Highlights
Natural polymers like cellulose are finding water technologies
Grafting sorption[1-8].The graft copolymers of cellulose of suitable monomers onto cellulose extracted from pine needles provides high degree of with N-Vinyl pyrrolidone hereafter called Cellg-poly(N-VP) and those with Butyl Acrylate selectivity and offers a wide field to develop called as Cell-g-poly(BuAc) synthesized and reactive graft copolymers for use as sorbents for reported earlier by Chauhan and present author www.rspsciencehub.com
Metal ions adsorption on anchor groups, ion exchange and sorption decreases with percent grafting (Pg) increase meaning in the bulk of polymer hydrogel thereby the frequency of grafting may be more pores.Metal ions are effectively partitioned but grafted chain length is shorter in case of between polymer and liquid phase
Summary
Natural polymers like cellulose are finding water technologies. Extracted cellulose is a new backbone polymer. Acrylate(BuAc) on to cellulose and some of their functionalized derivatives, on the basis of lowest to highest percent grafting (Pg). An attempt has been made to investigate selectivity in metal ion sorption and effects of structural aspects of functionalized graft copolymers to find their end-uses as cost effective and eco-friendly polymeric materials for waste water management technologies.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
