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Enzymatic degradation of hyperbraoched polyesters
Publikationstyp
Journal Article
Date Issued
2009-02-11
Sprache
English
Institut
Volume
112
Issue
4
Start Page
1873
End Page
1881
Citation
Journal of Applied Polymer Science 112 (4): 1873-1881 (2009-05-15)
Publisher DOI
Scopus ID
Publisher
Wiley
In this work, the enzyme-catalyzed degradation of hyperbranehed polyesters (HBPEs) was investigated. Enzymatic degradation experiments were performed in a phosphate buffer in the presence of the lipases Candida cylindracea, Pseudomonas cepacia, Novozym 388, Amano CE, Lipomod 34P, and Cal-B, whereas control experiments were performed in the same system without lipases. The extent of polymer degradation was determined by quantification of the released free fatty acids by gas chromatography. The influence of the alkane chain length and the number of alkane chain end groups on the lipase-catalyzed hydrolysis of esterified HBPEs was investigated systematically. It was found that the increase in the alkane chain length of the end groups diminished the enzymatic degradation of the polymer, whereas the number of end groups had no influence on the degradation rate. The effect of temperature on the rate of degradation was also described. Surface morphological changes that occurred during the degradation were assessed with reflected electron microscopy. The changes in the crystallinity of the polymers after they were subjected to degradation were qualitatively determined with differential scanning calorimetry through the quantification of the enthalpy of melting. The enthalpy of melting of one HBPE sample increased from 79 to 90 and 94 J/g with and without the action of Lipomod 34P, respectively, in 7 days, showing the changes in the crystallinity of the polymer. The results prove that modified HBPEs are an important new class of biodegradable materials with a predictable degradation mechanism, and the degradation can be adjusted on the basis of the molecular engineering.
Subjects
Biodegradable
Enzymes
Hyperbranehed
Polyesters
DDC Class
540: Chemie