Novel chitosan-sulfonated chitosan-polycaprolactone-calcium phosphate nanocomposite scaffold

“…In 2017, Ghaee et al reported the use of novel chitosan-CHS nanofibersa sc omponentso f polycaprolactone (PCL)-calcium phosphate nanocomposite [d] highamountofs ulfating agents required chitosan derivative [g] SO 3 /pyridine complexO À,N À highDSs, prefunctionalizationr equired [84] chitosan [h] oleum/DMF6-and 3-OÀ low molecular weight, further purificationr equired [73] scaffolds. [95] Cell culture experiments with osteoblast-like cells on the scaffolds demonstrated that the incorporation of these nanofibers in the fabricated scaffolds improved cell viability and attachment.…”

“…In 2017, Ghaee et al. reported the use of novel chitosan–CHS nanofibers as components of polycaprolactone (PCL)–calcium phosphate nanocomposite scaffolds . Cell culture experiments with osteoblast‐like cells on the scaffolds demonstrated that the incorporation of these nanofibers in the fabricated scaffolds improved cell viability and attachment.…”

Recent Advances in Artificially Sulfated Polysaccharides for Applications in Cell Growth and Differentiation, Drug Delivery, and Tissue Engineering

“…In 2017, Ghaee et al reported the use of novel chitosan-CHS nanofibersa sc omponentso f polycaprolactone (PCL)-calcium phosphate nanocomposite [d] highamountofs ulfating agents required chitosan derivative [g] SO 3 /pyridine complexO À,N À highDSs, prefunctionalizationr equired [84] chitosan [h] oleum/DMF6-and 3-OÀ low molecular weight, further purificationr equired [73] scaffolds. [95] Cell culture experiments with osteoblast-like cells on the scaffolds demonstrated that the incorporation of these nanofibers in the fabricated scaffolds improved cell viability and attachment.…”

“…In 2017, Ghaee et al. reported the use of novel chitosan–CHS nanofibers as components of polycaprolactone (PCL)–calcium phosphate nanocomposite scaffolds . Cell culture experiments with osteoblast‐like cells on the scaffolds demonstrated that the incorporation of these nanofibers in the fabricated scaffolds improved cell viability and attachment.…”

Recent Advances in Artificially Sulfated Polysaccharides for Applications in Cell Growth and Differentiation, Drug Delivery, and Tissue Engineering

“…In Li's study, Ce(III)‐incorporated cross‐linked CTS can remove fluoride from aqueous solution effectively. Hu et al . investigated the properties of nitrate removing from aqueous solution using granular chitosan‐Fe(III)–Al(III) complex.…”

“…In Li's study, [30] Ce(III)-incorporated cross-linked CTS can remove fluoride from aqueous solution effectively. Hu et al [31] investigated the properties of nitrate removing from aqueous solution using granular chitosan-Fe(III)-Al(III) complex. Tsiepe et al [32] obtained a new bionanocomposite, Fe 3 O 4 -β-cyclodextrin-chitosan, which showed good properties for better adsorption of arsenite ions.…”

Synthesis of Ce/SiO₂ Composited Cross‐Linked Chitosan Flocculation Material and Its Application in Decolorization of Tartrazine Dye

“…Chitosan, which is an absorbent and natural biological based flocculant, due to its abundant, biodegradablility, non‐toxicity and low‐cost has the potential to be effective in the removal of contaminants from wastewater . ' It has been confirmed that chitosan can improve color, microbial and turbidity removal in treating household drinking water. …”

Synthesis and evaluation of a novel inorganic–organic composite flocculant, consisting of chitosan and poly‐ferric cerium silicate