2017
DOI: 10.3390/polym9110582
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Stereocomplexation, Thermal and Mechanical Properties of Conetworks Composed of Star-Shaped l-Lactide, d-Lactide and ε-Caprolactone Oligomers Utilizing Sugar Alcohols as Core Molecules

Abstract: Abstract:It is important to develop tailor-made biodegradable/biocompatible polymer networks usable for biomaterials whose thermal and mechanical properties are easily controlled by changing the composition. We synthesized sugar-alcohol-based polymer networks (SPN-mscLAO/3CLO, m = 4, 5 or 6) by the crosslinking reactions of erythritol, xylitol or sorbitol-based m-armed star-shaped L-lactide and D-lactide oligomers (HmSLLAO and HmSDLAO), a glycerol-based 3-armed star-shaped ε-caprolactone oligomer (H3SCLO) and … Show more

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Cited by 8 publications
(6 citation statements)
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“…Xylitol in particular has been used as a monomer for synthesis of multiple materials with different characteristics, which include: core-shell electrospinnable poly (xylitol sebacate) [6,7], elastomeric copolyester with two dicarboxylic acids used as other monomers [8], and autofluorescent poly (xylitol-dodecandioic acid) [9]. Xylitol was also used as a substrate to develop injectable poly (xylitol-co-maleate-co-PEG) hydrogels [10], and star-shaped lactide and ε-caprolactone oligomers with xylitol and other sugar alcohols as core molecules [11]. Xylitol has also been used to synthesize poly (xylitol sebacate) which was analyzed by 13 C NMR and determined to be a linear chain comprised mainly of 1-acyl and 1,5-diacyl substitutions.…”
Section: Introductionmentioning
confidence: 99%
“…Xylitol in particular has been used as a monomer for synthesis of multiple materials with different characteristics, which include: core-shell electrospinnable poly (xylitol sebacate) [6,7], elastomeric copolyester with two dicarboxylic acids used as other monomers [8], and autofluorescent poly (xylitol-dodecandioic acid) [9]. Xylitol was also used as a substrate to develop injectable poly (xylitol-co-maleate-co-PEG) hydrogels [10], and star-shaped lactide and ε-caprolactone oligomers with xylitol and other sugar alcohols as core molecules [11]. Xylitol has also been used to synthesize poly (xylitol sebacate) which was analyzed by 13 C NMR and determined to be a linear chain comprised mainly of 1-acyl and 1,5-diacyl substitutions.…”
Section: Introductionmentioning
confidence: 99%
“…When glycerol is used to initiate the polymerization, a three-arm poly(glycerol ε-caprolactone) (PGCL) polyester is produced (Scheme 10). For PGCL synthesis the most often used catalyst has been tin(II) 2-ethylhexanoate or stannous octoate, Sn(Oct)2 [203][204][205][206][207][208][209][210][211], however, acidic (BF3•O(CH3)2) [212,213], and enzymatic (Novozym 435) [214,215] catalysis have been explored as well. The polymerization has been carried out between 110 °C and 130 °C when Sn(Oct)2 was used (about 48 h polymerization) or at lower temperatures when Novozym 435 (70 °C) or BF3O•(CH3)2, (80 °C) were used.…”
Section: Three-arm Poly(glycerol ε-Caprolactone)mentioning
confidence: 99%
“…The polymer contains mostly 1,5-diacyl and 1-acyl substitutions [22]. Other interesting materials obtained using sugar alcohols include: nanocomposites of poly(mannitol sebacate) with cellulose nanocrystals which display shape-memory properties [23], poly(xylitol-co-maleate-co-PEG) hydrogel, which can be used in order to encapsulate and inject cells [24], poly(xylitol sebacate), which can be electrospun by a core-shell method in order to obtain tissue-like material [25,26], biodegradable poly(xylitol-dodecanedioic acid) with possible future tissue-engineering applications [27], polymers able to reversibly solidify and liquefy, synthesized utilizing sugar alcohol and azo compounds [28], and conetworks based on poly(lactide) and sugar alcohols as core molecules [29].…”
Section: Introductionmentioning
confidence: 99%