Development of mesoporous polysaccharide/sol-gel composites with two different templating agents: Surfactants and choline chloride-based deep eutectic solvents

摘要

Mesoporous sorbent composites, evolving from previous work on microporous composites of polyanionic polysaccharideswere developed with the purpose of increasing the sorptive features of the materials. Using the widely successfulclassical surfactant micelle approach, it was observed, in this particular case, that the composites remained essentially microporous.The alternative consisted on the application of deep eutectic solvents (DES). The most common DES (cholinechloride + neutral hydrogen bond donor), were tested because of their advantages over other possibilities such as imidazolium-based ionic liquids: lower cost, easy in-house preparation, safe constituents and water stability and solubility. Possiblemechanisms underlying the observed mesoporosity were discussed. The surface area ranged between 76 and 267 m2/g andthe average pore size was in the range 3–5 nm. DES had not a negative effect on synthesis yields and, in the case of fucoidan,composites bearing a higher content of the biopolymer were produced. As a consequence and in line with the initial expectationsthese new composites revealed highly enhanced Pb (II) sorptive features comparatively to their microporous predecessors:chondroitin sulfate composites - up to a 5 fold capacity enhancement; fucoidan composites- up to a 3.5 fold capacityenhancement. The highest capacity was observed for the fucoidan composite prepared with choline chloride-ethyleneglycolDES, 79 mg Pb (II)/g, which is slightly above the highest value (77 mg Pb (II)/g) found in the literature for Pb (II) sorbentsbased on polysaccharides, sol-gels or their composites.