Journal
JOURNAL OF POLYMER ENGINEERING
Volume 33, Issue 5, Pages 389-443Publisher
WALTER DE GRUYTER GMBH
DOI: 10.1515/polyeng-2012-0122
Keywords
antibacterial activity; complexation; conductivity; doping; molecular iodine; polymers
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A unique feature of molecular iodine by far, is its ability to bind to polymeric materials. A plethora of natural and synthetic polymers develop complexes when treated with molecular iodine, or with a mixture of molecular iodine and potassium iodide. Many unexpected findings have been encountered upon complexation of iodine and the polymer skeleton, including the color formation, the polymer morphology changes, the complexation sites or regions, the biological activity, and the electrical conductivity enhancement of the complexes, with poly iodides (I-n(-)), mainly I-3(-) and I-5(-), as the actual binding species. Natural polymers that afford such complexes with iodine species are starch (amylose and amylopectin), chitosan, glycogen, silk, wool, albumin, cellulose, xylan, and natural rubber; iodine-starch being the oldest iodine-natural polymer complex. By contrast, numerous synthetic polymers are prone to make complexes, including poly(vinyl alcohol) (PVA), poly(vinyl pyrrolidone) (PVP), nylons, poly(Schiff base)s, polyaniline, unsaturated polyhydrocarbons (carbon nanotubes, fullerenes C-60/C-70, polyacetylene; iodine-PVA being the oldest iodine-synthetic polymer complex.
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