Physicochemical properties of chemically and enzymatically modified cellulosic surfaces

Surface characteristics of modified cotton fibers have been studied using electrokinetic analysis (EKA), inverse gas chromatography (IGC) and dynamic contact angle (DCA) determinations. Modifications of cotton surfaces included mercerization, water-proofing, cross-linking, dyeing with a bifunctional reactive dye and cellulase biopolishing. Comparisons are made to linen as an example of a natural cellulosic fiber other than cotton and to rayon as a representative of a regenerated cellulosic fiber. Generally all cellulosic surfaces were bipolar with a slightly higher acidic contribution in the case of the cotton samples. EKA indicated ion dissociation as the predominant mechanism for surface charge in aqueous medium for all cellulosic samples, with the exception of greige cotton and the cotton sample with the hydrophobic finish. Results from EKA and IGC showed good correlation, while DCA yielded unreasonably high basic contributions most likely due to fiber swelling. (c) 2005 Elsevier B.V. All rights reserved.