Assessment of the Morphology and Interaction of PHBV/Clay Bionanocomposites: Uses as Food Packaging

Abstract: The production of plastic waste has caused serious environmental impacts. Since the conventional polymers represent one of the largest percentages of waste, a possible solution for this environmental problem is the use of nanoclaybiopolymers for the preparation of food packaging. The objective of this study was to evaluate the morphological structure of poly(3-hydroxybutyrate-co-3-hydroxyvalerate) bionanocomposites and vermiculite through scanning electronic microscopy (SEM) and to verify their packaging/food … Show more

“…Both montmorillonite and halloysite clay minerals underwent modification to improve compatibility between the organic and inorganic phases. Cristino da Costa Reis et al [122] further evaluated the morphology and interaction of PHBV/clay bionanocomposites for packaging applications. The barrier properties of PHBV/clay were investigated by Crétois et al [123], using organoclay montmorillonite to improve the barrier properties of PHBV.…”

Copolymers and Blends Based on 3-Hydroxybutyrate and 3-Hydroxyvalerate Units

“…Both montmorillonite and halloysite clay minerals underwent modification to improve compatibility between the organic and inorganic phases. Cristino da Costa Reis et al [122] further evaluated the morphology and interaction of PHBV/clay bionanocomposites for packaging applications. The barrier properties of PHBV/clay were investigated by Crétois et al [123], using organoclay montmorillonite to improve the barrier properties of PHBV.…”

Copolymers and Blends Based on 3-Hydroxybutyrate and 3-Hydroxyvalerate Units

“…En el caso de los polímeros biodegradables, los nanocompuestos pueden mejorar el comportamiento en los aspectos donde los polímeros derivados del petróleo aún son superiores [129][130][131]. Ha sido ampliamente reportada la mejora de las propiedades mecánicas, la estabilidad térmica y las propiedades barrera a gases, aromas y vapor de agua de matrices de biopolímeros por la adición de pequeñas fracciones volumétricas de nanopartículas, tales como, nanotubos de carbono [132][133][134], bentonitas [20,135], nanotubos de haloisita [136][137][138][139], montmorillonitas [136,[139][140][141][142][143], agujas de sepiolita [144][145][146][147][148], vermiculita [149] y nanocelulosa [150][151][152][153], entre otros.…”

Desarrollo y caracterización de formulaciones poliméricas biodegradables y termoconformables para envasado

Perspectives of Bio-nanocomposites for Food Packaging Applications