Environmentally dependent adsorption of 2,4‐dichlorophenol on cellulose‐chitosan self‐assembled composites

Abstract: With the increasing need for bio‐based materials developed by environmentally friendly procedures, this work shows a green method to develop shape‐controlled structures from cellulose dissolving pulp coated by chitosan. This material was then tested to adsorb a common and widespread pollutant, 2,4‐dichlorophenol under different pH conditions (5.5 and 9). Herein it was noticed that the adsorption only occurred in acidic pH (5.5) where electrostatic interaction drove the adsorption, demonstrating the potential t… Show more

“…29,30 This method has been shown to produce low density nanocellulose-based beads with a high water content that can be exchanged with other solutions, thereby trapping the molecules within the cellulosic matrix. 31 These superabsorbent hydrogel beads have been explored as packaging materials, 29,32 drug carriers, 30,33 antimicrobial and water treatment scaffolds, 34,35 and cell carriers. 36 For the majority of these applications, the regenerated beads must be further washed to remove residual urea, nitrates, and nitric acid.…”

Modifying soluble NPK release with hydrophobized nanocellulose-based hydrogels for sustainable enhanced efficiency fertilizers

“…29,30 This method has been shown to produce low density nanocellulose-based beads with a high water content that can be exchanged with other solutions, thereby trapping the molecules within the cellulosic matrix. 31 These superabsorbent hydrogel beads have been explored as packaging materials, 29,32 drug carriers, 30,33 antimicrobial and water treatment scaffolds, 34,35 and cell carriers. 36 For the majority of these applications, the regenerated beads must be further washed to remove residual urea, nitrates, and nitric acid.…”

Modifying soluble NPK release with hydrophobized nanocellulose-based hydrogels for sustainable enhanced efficiency fertilizers

Valorized soybean hulls as TEMPO-oxidized cellulose nanofibril and polyethylenimine composite hydrogels and their potential removal of water pollutants

Process for cellulose-alginate core–shell microspheres fabrication and the influence of drying conditions on their structural and adsorption performances