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Influence of Process Parameters in Graphene Oxide Obtention on the Properties of Mechanically Strong Alginate Nanocomposites

Sodium alginate, a biopolymer extracted from brown algae, has shown great potential for many applications, mainly due to its remarkable biocompatibility and biodegradability. To broaden its fields of applications and improve material characteristics, the use of nanoreinforcements to prepare nanocomp...

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Autores principales: Larraza, Izaskun, Ugarte, Lorena, Fayanas, Aintzane, Gabilondo, Nagore, Arbelaiz, Aitor, Corcuera, Maria Angeles, Eceiza, Arantxa
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2020
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7084785/
https://www.ncbi.nlm.nih.gov/pubmed/32121222
http://dx.doi.org/10.3390/ma13051081
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author Larraza, Izaskun
Ugarte, Lorena
Fayanas, Aintzane
Gabilondo, Nagore
Arbelaiz, Aitor
Corcuera, Maria Angeles
Eceiza, Arantxa
author_facet Larraza, Izaskun
Ugarte, Lorena
Fayanas, Aintzane
Gabilondo, Nagore
Arbelaiz, Aitor
Corcuera, Maria Angeles
Eceiza, Arantxa
author_sort Larraza, Izaskun
collection PubMed
description Sodium alginate, a biopolymer extracted from brown algae, has shown great potential for many applications, mainly due to its remarkable biocompatibility and biodegradability. To broaden its fields of applications and improve material characteristics, the use of nanoreinforcements to prepare nanocomposites with enhanced properties, such as carbonaceous structures which could improve thermal and mechanical behavior and confer new functionalities, is being studied. In this work, graphene oxide was obtained from graphite by using modified Hummers’ method and exfoliation was assisted by sonication and centrifugation, and it was later used to prepare sodium alginate/graphene oxide nanocomposites. The effect that different variables, during preparation of graphene oxide, have on the final properties has been studied. Longer oxidation times showed higher degrees of oxidation and thus larger amount of oxygen-containing groups in the structure, whereas longer sonication times and higher centrifugation rates showed more exfoliated graphene sheets with lower sizes. The addition of graphene oxide to a biopolymeric matrix was also studied, considering the effect of processing and content of reinforcement on the material. Materials with reinforcement size-dependent properties were observed, showing nanocomposites with large flake sizes, better thermal stability, and more enhanced mechanical properties, reaching an improvement of 65.3% and 83.3% for tensile strength and Young’s modulus, respectively, for a composite containing 8 wt % of graphene oxide.
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spelling pubmed-70847852020-03-24 Influence of Process Parameters in Graphene Oxide Obtention on the Properties of Mechanically Strong Alginate Nanocomposites Larraza, Izaskun Ugarte, Lorena Fayanas, Aintzane Gabilondo, Nagore Arbelaiz, Aitor Corcuera, Maria Angeles Eceiza, Arantxa Materials (Basel) Article Sodium alginate, a biopolymer extracted from brown algae, has shown great potential for many applications, mainly due to its remarkable biocompatibility and biodegradability. To broaden its fields of applications and improve material characteristics, the use of nanoreinforcements to prepare nanocomposites with enhanced properties, such as carbonaceous structures which could improve thermal and mechanical behavior and confer new functionalities, is being studied. In this work, graphene oxide was obtained from graphite by using modified Hummers’ method and exfoliation was assisted by sonication and centrifugation, and it was later used to prepare sodium alginate/graphene oxide nanocomposites. The effect that different variables, during preparation of graphene oxide, have on the final properties has been studied. Longer oxidation times showed higher degrees of oxidation and thus larger amount of oxygen-containing groups in the structure, whereas longer sonication times and higher centrifugation rates showed more exfoliated graphene sheets with lower sizes. The addition of graphene oxide to a biopolymeric matrix was also studied, considering the effect of processing and content of reinforcement on the material. Materials with reinforcement size-dependent properties were observed, showing nanocomposites with large flake sizes, better thermal stability, and more enhanced mechanical properties, reaching an improvement of 65.3% and 83.3% for tensile strength and Young’s modulus, respectively, for a composite containing 8 wt % of graphene oxide. MDPI 2020-02-28 /pmc/articles/PMC7084785/ /pubmed/32121222 http://dx.doi.org/10.3390/ma13051081 Text en © 2020 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Larraza, Izaskun
Ugarte, Lorena
Fayanas, Aintzane
Gabilondo, Nagore
Arbelaiz, Aitor
Corcuera, Maria Angeles
Eceiza, Arantxa
Influence of Process Parameters in Graphene Oxide Obtention on the Properties of Mechanically Strong Alginate Nanocomposites
title Influence of Process Parameters in Graphene Oxide Obtention on the Properties of Mechanically Strong Alginate Nanocomposites
title_full Influence of Process Parameters in Graphene Oxide Obtention on the Properties of Mechanically Strong Alginate Nanocomposites
title_fullStr Influence of Process Parameters in Graphene Oxide Obtention on the Properties of Mechanically Strong Alginate Nanocomposites
title_full_unstemmed Influence of Process Parameters in Graphene Oxide Obtention on the Properties of Mechanically Strong Alginate Nanocomposites
title_short Influence of Process Parameters in Graphene Oxide Obtention on the Properties of Mechanically Strong Alginate Nanocomposites
title_sort influence of process parameters in graphene oxide obtention on the properties of mechanically strong alginate nanocomposites
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7084785/
https://www.ncbi.nlm.nih.gov/pubmed/32121222
http://dx.doi.org/10.3390/ma13051081
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