Preparation and cytocompatibility of chitosan-modified polylactide

Chitosan has been prepared from prawn shell and crab shell chitin. The molecular weight of the material derived from prawn shells is higher than that obtained from crab shell. The molecular weight, tensile strength, elongation at the break, and hydrophilic properties of chitosan are extremely depend

## Abstract Glycol chitosan, a water soluble chitosan derivative being investigated as a new biomaterial, was fractionated via two different methods. Initial characterization of the glycol chitosan with ^1^H NMR spectroscopy illustrated the presence of both secondary and tertiary amine groups, cont

## Abstract The chemical modification of polyamide66 (PA66) membrane by graft polymerization with methacrylic acid (MAA) was initiated under ultraviolet light. Subsequently, covalent immobilization of bioactive surface was obtained by coupling gelatin to the MAA graft chains with the aid of a water

## Abstract Two chitosan‐alginate gel systems in the form of membranes were produced and evaluated. The first membrane was produced by a novel gel system formed after blending __N__‐(methylsulfonic acid) chitosan with ammonium alginate (CAG1) and the second was an __N__‐(methylsulfonic acid) chitos

## Abstract Porous membranes were fabricated using chitosan and poly(DL‐lactide) or poly(L‐lactide) blends through a combinatorial technique. Well‐controlled porous structures could be achieved by optimizing processing conditions. The ductility and toughness of dry porous membranes were improved by