Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
1314947 | Journal of Fluorine Chemistry | 2009 | 9 Pages |
The optimum composition of a chitin-based biocomposite was determined based on both its fluoride adsorption capacity and its chemical resistance in acid aqueous solution. Parameters such as the chitin content, additive content, catalyst content, chitin particle size, degree of acetylation of chitin and effect of pH on adsorption were evaluated. It was possible to chemically reinforce chitin while keeping an acceptable fluoride adsorption capacity onto the chitin-based biocomposites. Optimum chitin content (60%) was limited by the polymer–biopolymer anchoring capacity. An amine-based additive was used to improve the biocomposite adsorption capacity; however, its inclusion was not suitable in terms of biocomposite chemical resistance. The chitin particle size had no effect on adsorption capacity, and the degree of acetylation of chitin notably modified biocomposite adsorption capacity. On the other hand, the biocomposite chemical resistance was notably improved compared to pure chitin. The physicochemical properties of the optimum chitin-based biocomposite showed its potential for being used in continuous adsorption processes.
Graphical abstractChitin was physicochemically reinforced by mixing it with a polymer to improve its mechanical and chemical resistance. The optimized mixture, i.e. the optimum chitin-based biocomposite, owns suitable properties for its use in continuous adsorption processes, in order to remove contaminants from water, e.g. fluoride.Figure optionsDownload full-size imageDownload as PowerPoint slide