2015
DOI: 10.1016/j.carbpol.2015.06.007
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Novel thiol- amine- and amino acid functional xylan derivatives synthesized by thiol–ene reaction

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Cited by 25 publications
(11 citation statements)
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“…145 The presence of hydroxyl and carboxylic groups on hemicelluloses makes them suitable for being chemically modified to introduce new functionalities. Several chemical modifications have been studied in order to obtain hydrogels from hemicelluloses, introducing cross-linking such as thiol-functional, 146,147 methacrylate derivatives, 148 and grafting of acrylic acid. 149 It has been previously shown that, hemicelluloses extracted from spruce, such as xylan and galactoglucomannan, could be modified with tyramine, a molecule similar to lignin, which enable the enzymatic cross-linking using horseradish peroxidase.…”
Section: D-bioprinting Of Nanocellulosementioning
confidence: 99%
“…145 The presence of hydroxyl and carboxylic groups on hemicelluloses makes them suitable for being chemically modified to introduce new functionalities. Several chemical modifications have been studied in order to obtain hydrogels from hemicelluloses, introducing cross-linking such as thiol-functional, 146,147 methacrylate derivatives, 148 and grafting of acrylic acid. 149 It has been previously shown that, hemicelluloses extracted from spruce, such as xylan and galactoglucomannan, could be modified with tyramine, a molecule similar to lignin, which enable the enzymatic cross-linking using horseradish peroxidase.…”
Section: D-bioprinting Of Nanocellulosementioning
confidence: 99%
“… 122 124 By employing different cross-linking strategies, hemicellulose-based hydrogels can also be prepared by methacrylate derivatization, 125 , 126 tyramine modification, 127 , 128 and thiol functionalization. 129 , 130 This has inspired the utilization of hemicellulose derivatives as promoting agents in the 3D printing of nanocelluloses, which offer a cross-linking network by binding with the cellulose matrix in the woody bioink. As demonstrated by Markstedt et al, 95 tyramine-modified xylan acts as both a fiber surface modifier and a biodegradable cross-linker in the formulation of nanocellulose bioinks.…”
Section: Hemicelluloses: Properties and Aspects For 3d Printingmentioning
confidence: 99%
“…After being fractionated from woody biomasses, the high physical affinity between hemicelluloses and the cellulose surface is retained. This gives hemicelluloses an applicable niche as anchor polymers to engineer the surface of cellulose fibers. Structurally, hemicellulose contains either pentose or hexose with many free hydroxyl groups, which are easily functionalized by, for example, esterification, etherification, or reductive amination. In our past studies, tuning the surface properties of CNFs (wettability and surface rigidity) using hardwood hemicellulose from spruce, galactoglucomannan (GGM), and its derivatives (GGM- graft- fatty acid, GGM- block -fatty acid, and GGM- block- PDMS) was investigated. By employing different cross-linking strategies, hemicellulose-based hydrogels can also be prepared by methacrylate derivatization, , tyramine modification, , and thiol functionalization. , This has inspired the utilization of hemicellulose derivatives as promoting agents in the 3D printing of nanocelluloses, which offer a cross-linking network by binding with the cellulose matrix in the woody bioink. As demonstrated by Markstedt et al, tyramine-modified xylan acts as both a fiber surface modifier and a biodegradable cross-linker in the formulation of nanocellulose bioinks.…”
Section: Hemicelluloses: Properties and Aspects For 3d Printingmentioning
confidence: 99%
“…Beads consisted of xylan cross-linked with disulfide bonds (Pahimanolis et al, 2015) having a water content of 94 wt.% and reinforced with cellulose nanocrystals 11 wt.% of solids content see Supplementary material (Appendix A) for detailed synthesis and analysis.…”
Section: Bead Materialsmentioning
confidence: 99%