Article ID Journal Published Year Pages File Type
603987 Food Hydrocolloids 2013 9 Pages PDF
Abstract

Montmorillonite (MMT) and cellulose nanoparticles (CNP) were added to alginate biopolymer to compare the properties of bionanocomposites reinforced with different organic and inorganic nanofillers in various loading contents (1, 3, and 5 wt%). Both MMT and CNP decreased the water solubility (WS) of the films. However, at all filler contents the WS of the alginate/MMT (84–61%) nanocomposites was significantly (P < 0.05) lower than that of alginate/CNP films (95–77%). Surface hydrophobicity of the nanocomposites showed a great improvement (83%) with crystalline hydrophobic CNP addition, while MMT made films' surface more hydrophilic. The addition of both nanoreinforcements similarly caused a reduction in the water vapor permeability of the alginate-based nanocomposites. Due to the similar polysaccharide structures and good interfacial interactions, the TS and E of the nanocomposite films improved with an increase in CNP content and reached a maximum at the highest loading level (5 wt%). However, when the content of MMT went beyond 1 wt% nanocomposites, a decrease in the TS was observed. Finally, these results propose that organic CNP more than ability to make a fully renewable and natural nanocomposites may also introduce some other advantages compared to inorganic nanoclay fillers when added to carbohydrate biopolymers.

Graphical abstractFigure optionsDownload full-size imageDownload as PowerPoint slideHighlights► Comparing reinforcement effect of organic and inorganic nanofillers in carbohydrate film. ► Contrary effect of the nanofillers on the surface hydrophobicity of alginate film. ► Similar barrier ability observation for both nanofillers. ► More ability of nonocellulose to improve mechanical properties of alginate film. ► Organic nanofiller has better potential for decreasing limitation in application of alginate films in food packaging.

Related Topics
Physical Sciences and Engineering Chemical Engineering Colloid and Surface Chemistry
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