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Renewable and Sustainable Energy Reviews, ISSN 1364-0321, 11/2017, Volume 79, pp. 1346 - 1352
Biodegradable polymers are seen as a potential solution to the environmental problems generated by plastic waste. In particular, the renewable aliphatic... 
Biodegradable | Hydrolytic degradation | Chitosan | Nanocomposites | Polylactic acid | GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY | ENERGY & FUELS | PLASTICIZER | RAC-LACTIDE | BLENDS | SINGLE-SITE | IN-VITRO | BIODEGRADABLE POLYMERS | EDIBLE FILMS | POLY(LACTIC ACID) | RING-OPENING POLYMERIZATION | Fermentation | Polyols | Green technology | Cellulose | Biomedical engineering
Journal Article
Journal of Applied Polymer Science, ISSN 0021-8995, 10/2006, Volume 102, Issue 2, pp. 1681 - 1687
Journal Article
Polymer Degradation and Stability, ISSN 0141-3910, 08/2016, Volume 130, pp. 118 - 125
The present paper studies the effect of pH on hydrolytic degradation of Poly(ε-caprolactone) (PCL) Degradation of the films was performed at 37 °C in 2.5 M... 
Hydrolysis | PCL | Hydrolytic degradation | POLYMER SCIENCE | BLENDS | ALIPHATIC POLYESTERS | POLYMER | POLY(L-LACTIC ACID) | MEDIA | FABRICATION | ALKALINE-SOLUTION | SCAFFOLDS | MORPHOLOGY | Hydrogen-ion concentration | Comparative analysis | Degradation | Swelling | Weight loss | Modulus of elasticity | Crystallinity | Molecular weight
Journal Article
Polymer Degradation and Stability, ISSN 0141-3910, 02/2015, Volume 112, pp. 104 - 116
The hydrolytic degradation study was carried out at 37 °C on lactide-co-δ-valerolactone (PLVL) biopolyesters and demonstrated that the water uptake was... 
δ-Valerolactone | Water absorption | Hydrolytic degradation | Copolyester | Lactide | Degradation rate | L-LACTIDE | POLYMER SCIENCE | VIVO DEGRADATION | POLYMER DEGRADATION | STATISTICAL COPOLYMERS | EPSILON-CAPROLACTONE | ALIPHATIC POLYESTERS | delta-Valerolactone | TISSUE-RESPONSE | END SCISSION | CHAIN MICROSTRUCTURES | Hydrolysis
Journal Article
Polymer, ISSN 0032-3861, 10/2007, Volume 48, Issue 21, pp. 6348 - 6353
Journal Article
Polymer International, ISSN 0959-8103, 06/2007, Volume 56, Issue 6, pp. 718 - 728
The design and fabrication of scaffolds and biodegradable devices using slow‐degrading polymers and composites (degradation/resorption > 2 years) involve the... 
degradation | tricalcium phosphate composites | scaffolds | alkaline medium | polycaprolactone | Degradation | Tricalcium phosphate composites | Alkaline medium | Polycaprolactone | Scaffolds | BIODEGRADATION | POLYMER SCIENCE | HYDROLYTIC DEGRADATION | COPOLYMERS | IMPLANT | INVIVO | ALIPHATIC POLYESTERS | POLY(EPSILON-CAPROLACTONE) FILMS | POLYMER | FABRICATION | BONE
Journal Article
Polymer Degradation and Stability, ISSN 0141-3910, 08/2012, Volume 97, Issue 8, pp. 1241 - 1248
Long-term hydrolytic and enzymatic degradation profiles of poly(ε-caprolactone) (PCL) networks were obtained. The hydrolytic degradation studies were performed... 
Degradation | Hydrolysis | PCL | Hydrolytic | Enzymatic | Network | POLYCAPROLACTONE SCAFFOLDS | POLY(L-LACTIDE) | POLYMER SCIENCE | BEHAVIOR | PHOSPHATE BUFFER SOLUTION | FILMS | BLEND | ALIPHATIC POLYESTERS | POLY-EPSILON-CAPROLACTONE
Journal Article
Polymer Degradation and Stability, ISSN 0141-3910, 10/2017, Volume 144, pp. 520 - 535
Journal Article
International Journal of Biological Macromolecules, ISSN 0141-8130, 06/2018, Volume 112, pp. 156 - 162
Journal Article