Gelatin capsule waste: new source of protein to develop a biodegradable film

Gelatin capsule waste: new source of protein to develop a biodegradable film

Abstract This work aimed to develop biodegradable films utilizing a new source of gelatin derived from the nutraceutical capsule manufacture waste of coconut with safflower oil, coconut oil and safflower oil. The mechanical, physicochemical, barrier, optical, biodegradation, thermal and morphologica...

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Bibliographic Details
Main Authors: Camila de Campo, Carlos Henrique Pagno, Tania Maria Haas Costa, Alessandro de Oliveira Rios, Simone Hickmann Flôres
Format: Article
Language:English
Published: Associação Brasileira de Polímeros
Series:Polímeros
Subjects:
gelatin films
food packaging
nutraceutical capsules waste
environmental impact
Online Access:http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0104-14282017005005105&lng=en&tlng=en
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spelling doaj-791bbd81b35544e896158b8bdd5fd7e72020-11-24T20:58:23ZengAssociação Brasileira de PolímerosPolímeros1678-5169010.1590/0104-1428.2371S0104-14282017005005105Gelatin capsule waste: new source of protein to develop a biodegradable filmCamila de CampoCarlos Henrique PagnoTania Maria Haas CostaAlessandro de Oliveira RiosSimone Hickmann FlôresAbstract This work aimed to develop biodegradable films utilizing a new source of gelatin derived from the nutraceutical capsule manufacture waste of coconut with safflower oil, coconut oil and safflower oil. The mechanical, physicochemical, barrier, optical, biodegradation, thermal and morphological properties were evaluated. All films showed low water vapor permeability, intermediate water solubility and high elongation at break. In addition, the films exhibited excellent barrier ability to ultraviolet light. After 15 days of soil burial degradation, the films lost over 68% of initial weight. Scanning electron microscopy showed an appearance free of pores, cracks or bubbles. Furthermore the films showed similar characteristics independent of the waste utilized. The results demonstrated that all the biodegradable films prepared presented appropriate characteristics to be used as substitute to synthetic packaging.http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0104-14282017005005105&lng=en&tlng=engelatin filmsfood packagingnutraceutical capsules wasteenvironmental impact
collection DOAJ
language English
format Article
sources DOAJ
author Camila de Campo
Carlos Henrique Pagno
Tania Maria Haas Costa
Alessandro de Oliveira Rios
Simone Hickmann Flôres
spellingShingle Camila de Campo
Carlos Henrique Pagno
Tania Maria Haas Costa
Alessandro de Oliveira Rios
Simone Hickmann Flôres
Gelatin capsule waste: new source of protein to develop a biodegradable film
Polímeros
gelatin films
food packaging
nutraceutical capsules waste
environmental impact
author_facet Camila de Campo
Carlos Henrique Pagno
Tania Maria Haas Costa
Alessandro de Oliveira Rios
Simone Hickmann Flôres
author_sort Camila de Campo
title Gelatin capsule waste: new source of protein to develop a biodegradable film
title_short Gelatin capsule waste: new source of protein to develop a biodegradable film
title_full Gelatin capsule waste: new source of protein to develop a biodegradable film
title_fullStr Gelatin capsule waste: new source of protein to develop a biodegradable film
title_full_unstemmed Gelatin capsule waste: new source of protein to develop a biodegradable film
title_sort gelatin capsule waste: new source of protein to develop a biodegradable film
publisher Associação Brasileira de Polímeros
series Polímeros
issn 1678-5169
description Abstract This work aimed to develop biodegradable films utilizing a new source of gelatin derived from the nutraceutical capsule manufacture waste of coconut with safflower oil, coconut oil and safflower oil. The mechanical, physicochemical, barrier, optical, biodegradation, thermal and morphological properties were evaluated. All films showed low water vapor permeability, intermediate water solubility and high elongation at break. In addition, the films exhibited excellent barrier ability to ultraviolet light. After 15 days of soil burial degradation, the films lost over 68% of initial weight. Scanning electron microscopy showed an appearance free of pores, cracks or bubbles. Furthermore the films showed similar characteristics independent of the waste utilized. The results demonstrated that all the biodegradable films prepared presented appropriate characteristics to be used as substitute to synthetic packaging.
topic gelatin films
food packaging
nutraceutical capsules waste
environmental impact
url http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0104-14282017005005105&lng=en&tlng=en
work_keys_str_mv AT camiladecampo gelatincapsulewastenewsourceofproteintodevelopabiodegradablefilm
AT carloshenriquepagno gelatincapsulewastenewsourceofproteintodevelopabiodegradablefilm
AT taniamariahaascosta gelatincapsulewastenewsourceofproteintodevelopabiodegradablefilm
AT alessandrodeoliveirarios gelatincapsulewastenewsourceofproteintodevelopabiodegradablefilm
AT simonehickmannflores gelatincapsulewastenewsourceofproteintodevelopabiodegradablefilm
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