Mechanical and Permeability Properties of Thermoplastic Starch Composites Reinforced with Cellulose Nanofiber for Packaging Applications

Balakrishnan, Preetha; Gopi, Sreerag; Geethamma, V. G.; Thomas, Sabu; Геетхамма, В.Г.; Tomás, S.A.

doi:10.17516/1997-1389-0303

Cited by 3 publications

(2 citation statements)

References 23 publications

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“…We can thus observe that the addition of nanocellulose to starch‐based films can increase the tensile strength and the elastic modulus, and reduce the elongation percentage at the break. [ 9,23–25 ] It also observed that the addition of nanocellulose can reduce the oxygen and water vapor transmission rate and the hydrophilicity of the films. [ 9,23–25 ] The effect of adding nanosized cellulose to starch‐based films is further detailed throughout this review paper.…”

Section: Carbohydrates Explored For Nanomaterials Productionmentioning

confidence: 99%

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Carbohydrate Nanomaterials Addition to Starch‐Based Packaging: A Review about Fundamentals and Application

et al. 2021

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Starch‐based packaging has been explored as an alternative to conventional plastics. However, the former material shows a poorer performance when compared with the latter. Carbohydrate nanomaterials addition has proved to be promising to solve this issue, improving mechanical and barrier properties. The use of carbohydrates nanomaterials has many advantages since the raw material is highly available in nature, obtained from renewable, low‐cost, and non‐toxic sources. This review shows the different methods of producing nanomaterials from the main carbohydrate sources, cellulose, chitosan, and starch. The study begins the approach with the most conventional method, acid hydrolysis, proceeding with the methods explored on a smaller scale such as enzymatic hydrolysis, oxidation, ultrasound, and electrospinning. Besides, the study shows works involving the production of starch‐based nanocomposites and discussions about the improvement of its properties promoted by the addition of these nanomaterials. Works in the literature have shown starch‐based nanocomposites with higher crystallinity, transparency, thermal stability, reinforcement, oxygen barrier, lower water absorption, and even anti‐microbial activity, making them suitable for packaging. Finally, the future perspectives of this research field are shown and discussed .

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Section: Carbohydrates Explored For Nanomaterials Productionmentioning

confidence: 99%

“…[ 9,23–25 ] It also observed that the addition of nanocellulose can reduce the oxygen and water vapor transmission rate and the hydrophilicity of the films. [ 9,23–25 ] The effect of adding nanosized cellulose to starch‐based films is further detailed throughout this review paper.…”

Section: Carbohydrates Explored For Nanomaterials Productionmentioning

confidence: 99%

Carbohydrate Nanomaterials Addition to Starch‐Based Packaging: A Review about Fundamentals and Application

et al. 2021

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Nanocellulose and its derivative materials for energy and environmental applications

et al. 2022

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The application of biomass-derived renewable materials has generated great interest in recent research works. Among many such biopolymers, nanocellulose has become the leading topic in the sphere of sustainable material owing to the outstanding mechanical, chemical and thermal properties along with non-toxicity, surface functionality, ease of modification and sustainability. Nanocellulose is often considered to be a second-generation renewable resource and a better replacement for conventional petroleum-based products with or without any modifications. Even though some reviews have reported on some of the applications of nanocellulose, so far there is no comprehensive report gathering the extraction, properties, functionalization towards energy and environmental applications. This review aims to present the use of nanocellulose based materials for energy and environmental challenges. Important characteristics such as crystallinity, hydrophilicity, thermal decomposition and surface charge are described as a function of the targeted applications. In the latter part of this review, we have looked into the recent studies in the area of applications such as air pollution, heavy metal sorption, dye adsorption, biosensors, EMI shielding, fuel cell, solar cell, lithium-ion batteries and biofuels etc. However, a green, sustainable and scalable nanocellulose extraction is yet to be fulfilled. In our view, the bacterial nanocellulose based approach can address all these issues with the added advantage of producing a very high purity of nanocellulose. Hence this review is intended to provide new insights into the field of ecofriendly functional materials with included in-depth perspectives about nanocellulose and its future based on the current research trends.

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Design and synthesis of Ag NPs/Cellulose nanofiber-starch nano-bio composites for packaging applications

Balakrishnan,

Gopi

2024

Yanbu Journal of Engineering and Science

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Addressing problems due to conventional plastics requires a comprehensive approach involving waste reduction, improved waste management practices, and the development of sustainable alternatives to conventional plastics. In this study, a system was designed that can decorate cellulose nanofiber with silver nanoparticles (AgNP) and then used as a reinforcing agent in thermoplastic starch matrix. The composites were characterized by Fourier Transform Infrared Spectroscopy (FTIR), Field emission scanning electron microscopy (FESEM), Transmission electron microscopy (TEM) and transport properties. The morphology and chemical modification of cellulose nanomaterials with silver nanoparticles were confirmed by FESEM, TEM and FTIR and the results indicated proper adhesion of silver nanoparticles in cellulose nanofiber. The addition of AgNP decorated cellulose nanofiber on thermoplastic starch matrix could effectively reduce cracks and pores and improves the overall performance of nanocomposite films. The unique properties of starch nanoparticles make them a promising candidate for diverse applications, showcasing their potential as a sustainable and versatile nanomaterial.

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Mechanical and Permeability Properties of Thermoplastic Starch Composites Reinforced with Cellulose Nanofiber for Packaging Applications

Cited by 3 publications

References 23 publications

Carbohydrate Nanomaterials Addition to Starch‐Based Packaging: A Review about Fundamentals and Application

Carbohydrate Nanomaterials Addition to Starch‐Based Packaging: A Review about Fundamentals and Application

Nanocellulose and its derivative materials for energy and environmental applications

Design and synthesis of Ag NPs/Cellulose nanofiber-starch nano-bio composites for packaging applications

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