2013
DOI: 10.1039/c3ta12555f
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Progress in bio-based plastics and plasticizing modifications

Abstract: Over the coming few decades bioplastic materials are expected to complement and gradually replace some of the fossil oil based materials. Multidisciplinary research efforts have generated a significant level of technical and commercial success towards these bio-based materials. However, extensive application of these bio-based plastics is still challenged by one or more of their possible inherent limitations, such as poor processability, brittleness, hydrophilicity, poor moisture and gas barrier, inferior comp… Show more

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Cited by 688 publications
(454 citation statements)
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References 219 publications
(285 reference statements)
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“…1 shows that adding more plasticizer (EPO) proportionally decreased the tensile strength of PLA. This finding can be explained by the theory of gelation where the presence of the plasticizer weakened the polymer structure thus improves the flexibility of the PLA biopolymer [8]. The low weight of molecular plasticizer molecules reduced and disrupted the polymers interaction which makes the polymer chain hold together [9][10].…”
Section: Experimental Methodsmentioning
confidence: 89%
“…1 shows that adding more plasticizer (EPO) proportionally decreased the tensile strength of PLA. This finding can be explained by the theory of gelation where the presence of the plasticizer weakened the polymer structure thus improves the flexibility of the PLA biopolymer [8]. The low weight of molecular plasticizer molecules reduced and disrupted the polymers interaction which makes the polymer chain hold together [9][10].…”
Section: Experimental Methodsmentioning
confidence: 89%
“…One of the major drawbacks of processing PHB and PLA is their tendency to undergo thermal degradation above their melting temperatures and consequently poor melt stability. Several modifications routes have been followed to improve the melt stability of PHB and PLA such as, blending with plasticizers [17], additives, other thermally stable polymers, or through chemical modification of the polymer backbone by incorporating copolymers [18]. However, despite these modifications, there are still further needs to improve other properties like water vapor and gas permeability, flexibility, and compatibility with natural fibers as reinforcement. )…”
Section: State Of Art and Scope Of Nanotechnology In Bio-based Paper mentioning
confidence: 99%
“…However, the processing of biopolymers is somewhat challenging due to the strong intermolecular hydrogen bonding in their native forms, 2 and the processing conditions usually depend on the identity of the biopolymer. Traditionally, for the film formation, biopolymers have been mostly processed by solution methods (casting), based on a filmforming solution (more rare, dispersion) where biopolymers are first solubilized into a liquid phase.…”
mentioning
confidence: 99%