Oxygen permeability properties of nanocellulose reinforced biopolymer nanocomposites

Oxygen permeability properties of nanocellulose reinforced biopolymer nanocomposites

Biodegradable polymers; Biofilms; Biomolecules; Nanocellulose; Nanocomposite films; Nanocomposites; Oxygen; Oxygen permeable membranes; Packaging; Packaging materials; Reinforcement; Sustainable development; Tensile strength; Water vapor; Dry powders; Nano-cellulose; Oxygen permeability; Oxygen vapo...

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Main Authors: Ilyas R.A., Azmi A., Nurazzi N.M., Atiqah A., Atikah M.S.N., Ibrahim R., Norrrahim M.N.F., Asyraf M.R.M., Sharma S., Punia S., Syafri E., Sari N.H., Asrofi M., Sapuan S.M.
Other Authors: 57196328367
Format: Conference Paper
Published: Elsevier Ltd 2023
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Institution: Universiti Tenaga Nasional
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spelling my.uniten.dspace-264262023-05-29T17:10:23Z Oxygen permeability properties of nanocellulose reinforced biopolymer nanocomposites Ilyas R.A. Azmi A. Nurazzi N.M. Atiqah A. Atikah M.S.N. Ibrahim R. Norrrahim M.N.F. Asyraf M.R.M. Sharma S. Punia S. Syafri E. Sari N.H. Asrofi M. Sapuan S.M. 57196328367 57473743800 55899483400 55366998300 57209275651 36659182600 55924430000 57205295733 57211422917 57117808600 57196348984 57192905081 57193698037 35230794000 Biodegradable polymers; Biofilms; Biomolecules; Nanocellulose; Nanocomposite films; Nanocomposites; Oxygen; Oxygen permeable membranes; Packaging; Packaging materials; Reinforcement; Sustainable development; Tensile strength; Water vapor; Dry powders; Nano-cellulose; Oxygen permeability; Oxygen vapors; Permeability properties; Plastics waste; Powder products; Property; Shelf life; Water vapour; Biopolymers Dry powder products are highly sensitive to oxygen and water vapour and must have a long shelf life. Currently, they are vacuum-packaged in sachets whose walls are made of a composite film that stops oxygen and water vapour from entering the package. Most of these composites are not biodegradable, a situation that the most agricultural company now wants to change to gain in sustainability. According to National Geography (2019), every year, about 8 million tons of plastic waste escapes into the oceans from coastal nations, with some estimates ranging to at least 400 years to break down. Over the years, there is huge interest in the development and use of biobased packaging materials, however, most of these materials are brittle and have low mechanical properties. Thus, in order to overcome these drawbacks, blended polymers with the reinforcement of nanocellulose are recommended. The aim of this paper is to review packaging films with oxygen barrier properties similar to those of the conventional films but also having biodegradable properties. From the literature, the oxygen permeability coefficient improved with the high strength, modulus, and ductility, as the nanocellulose was reinforcing with biopolymer. This might be due to nanocellulose that contributes to the higher stretchability of the composite biofilms. A fine dispersion of nanocellulose throughout the polymer host promoted several improved properties of the composite biofilms. In addition, nanocellulose had greatly enhanced oxygen and water vapour barrier properties. It would indeed push the usability of biopolymers forward, and certainly, prompt wider application of biodegradable polymers in the fields of environmental protection such as biodegradable food packaging. � 2021 Elsevier Ltd. All rights reserved. Final 2023-05-29T09:10:23Z 2023-05-29T09:10:23Z 2021 Conference Paper 10.1016/j.matpr.2021.10.420 2-s2.0-85122530326 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85122530326&doi=10.1016%2fj.matpr.2021.10.420&partnerID=40&md5=2a3afdd15b5522b567a2965ae03e7443 https://irepository.uniten.edu.my/handle/123456789/26426 52 2414 2419 Elsevier Ltd Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
description Biodegradable polymers; Biofilms; Biomolecules; Nanocellulose; Nanocomposite films; Nanocomposites; Oxygen; Oxygen permeable membranes; Packaging; Packaging materials; Reinforcement; Sustainable development; Tensile strength; Water vapor; Dry powders; Nano-cellulose; Oxygen permeability; Oxygen vapors; Permeability properties; Plastics waste; Powder products; Property; Shelf life; Water vapour; Biopolymers
author2 57196328367
author_facet 57196328367
Ilyas R.A.
Azmi A.
Nurazzi N.M.
Atiqah A.
Atikah M.S.N.
Ibrahim R.
Norrrahim M.N.F.
Asyraf M.R.M.
Sharma S.
Punia S.
Syafri E.
Sari N.H.
Asrofi M.
Sapuan S.M.
format Conference Paper
author Ilyas R.A.
Azmi A.
Nurazzi N.M.
Atiqah A.
Atikah M.S.N.
Ibrahim R.
Norrrahim M.N.F.
Asyraf M.R.M.
Sharma S.
Punia S.
Syafri E.
Sari N.H.
Asrofi M.
Sapuan S.M.
spellingShingle Ilyas R.A.
Azmi A.
Nurazzi N.M.
Atiqah A.
Atikah M.S.N.
Ibrahim R.
Norrrahim M.N.F.
Asyraf M.R.M.
Sharma S.
Punia S.
Syafri E.
Sari N.H.
Asrofi M.
Sapuan S.M.
Oxygen permeability properties of nanocellulose reinforced biopolymer nanocomposites
author_sort Ilyas R.A.
title Oxygen permeability properties of nanocellulose reinforced biopolymer nanocomposites
title_short Oxygen permeability properties of nanocellulose reinforced biopolymer nanocomposites
title_full Oxygen permeability properties of nanocellulose reinforced biopolymer nanocomposites
title_fullStr Oxygen permeability properties of nanocellulose reinforced biopolymer nanocomposites
title_full_unstemmed Oxygen permeability properties of nanocellulose reinforced biopolymer nanocomposites
title_sort oxygen permeability properties of nanocellulose reinforced biopolymer nanocomposites
publisher Elsevier Ltd
publishDate 2023
_version_ 1806424177835507712

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