Incorporation of spray dried and freeze dried blackberry particles in edible films: Morphology, stability to pH, sterilization and biodegradation

Incorporation of spray dried and freeze dried blackberry particles in edible films: Morphology, stability to pH, sterilization and biodegradation

•Arrowroot starch films and blackberry pulp microparticles were developed.•Incorporation of blackberry powder caused heterogeneity in the starch matrix.•Arrowroot starch films showed stability to pH and sterilization process.•There was darkening of the films with blackberry pulp after their steriliz...

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Bibliographic Details
Published in:Food packaging and shelf life Vol. 20; p. 100313
Main Authors: Ferreira Nogueira, Gislaine, Matta Fakhouri, Farayde, de Oliveira, Rafael Augustus
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-06-2019
Subjects:
Antioxidant compounds
Incorporation
Microparticle
Microstructure
Powder
Microparticle
Incorporation
Microstructure
Antioxidant compounds
Powder
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Summary:•Arrowroot starch films and blackberry pulp microparticles were developed.•Incorporation of blackberry powder caused heterogeneity in the starch matrix.•Arrowroot starch films showed stability to pH and sterilization process.•There was darkening of the films with blackberry pulp after their sterilization.•Films showed almost entirely disintegration after 38-days of composting. Blackberry pulp powder (B, without encapsulating agent) and microencapsulated blackberry pulp (M, with encapsulating agent) obtained by freeze drying (L) and spray drying (S) were incorporated in the arrowroot starch film-forming solution directly (D) and by sprinkling (S), in concentrations of 0, 20, 30 and 40% (blackberry solids mass/biopolymer mass), to produce active food packaging. The blackberry powders presented antioxidant capacity. SEM images showed that incorporation of blackberry powder in the film-forming solution caused heterogeneity in the starch matrix and made its surface rough and irregular. Films incorporated with sprinkling blackberry powder had higher antioxidant capacity and were more soluble in acidic, neutral and alkaline solutions in relation to films directly incorporated, showing great potential to be used as vehicle for releasing of antioxidant compounds into the surroundings. There was darkening of films with blackberry pulp after sterilization process. Films showed almost entirely disintegration after 38-days of composting.
ISSN:2214-2894
2214-2894
DOI:10.1016/j.fpsl.2019.100313