Properties Comparison of Oxidized and Heat Moisture Treated (HMT) Starch-Based Biodegradable Films

Cahyana, Yana; Verrell, Christoper; Kriswanda, Dodo; Aulia, Ghina Almira; Yusra, Namira Azkia; Marta, Herlina; Sukri, Nandi; Safarov, Jasur; Abduvakhitovna, Sultanova Shakhnoza

doi:10.3390/polym15092046

Polymers

2023

DOI: 10.3390/polym15092046

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Properties Comparison of Oxidized and Heat Moisture Treated (HMT) Starch-Based Biodegradable Films

Yana Cahyana

Christoper Verrell

Dodo Kriswanda

et al.

Abstract: Starch-based biodegradable films have been studied for a long time. To improve starch properties and to increase film characteristics, starch is commonly modified. Amongst different types of starch modifications, oxidation and heat moisture treatment are interesting to explore. Unfortunately, review on these modifications for film application is rarely found, although these starch modifications provide interesting results regarding the starch and film properties. This paper aims to discuss the progress of rese… Show more

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Cited by 9 publications

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Dry Heat Treatment of Finger Millet Starch for Thin Films—Studies on Physicochemical, Mechanical, and Barrier Properties

Gautam,

Garg,

Yadav

2023

Starch Stärke

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This research work aimed to investigate the impact of dry heat treatment (DHT) on the morphological, structural, and physicochemical properties of native finger millet starch (FMS), with the goal of enhancing its applicability in thin films. Both native and modified starches were utilized in the production of biodegradable edible thin films, which are primarily starch‐based. The incorporation of modified starch allowed for the development of state‐of‐the‐art films, specifically designed to accommodate photosensitive food products. The influence of DHT on FMS was examined through various parameters, including moisture content, amylose content, ash content, swelling power, and solubility. Subsequently, a sequential evaluation was conducted to assess the morphology, structural and thermal stability, film thickness, water vapor permeability, water solubility, and mechanical properties of thin films produced from both FMS and DHT‐modified FMS. Regarding the modification of FMS, the solubility of FMS exhibited improvement, while amylose content, swelling, ash, and moisture content exhibited a decline. Thin films fabricated using DHT‐modified FMS displayed enhanced homogeneity and continuity, devoid of cracks and holes typically observed in native FMS‐based thin films. Furthermore, the mechanical properties, water solubility, and water vapor permeability of the films were also improved as a result of the DHT treatment. It can be inferred that the DHT modification technique significantly alters the physicochemical properties of FMS, thereby enhancing its potential for various food applications. These results demonstrated that DHT could be useful for enhancing the physical and nutritional properties of high amylose finger millet starch. Hence, the edible films made from DTH modified starch hold great promise, as they have the potential to revolutionize the food packaging industry by providing sustainable and innovative solutions .This article is protected by copyright. All rights reserved

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Dry Heat Treatment of Finger Millet Starch for Thin Films—Studies on Physicochemical, Mechanical, and Barrier Properties

Gautam,

Garg,

Yadav

2023

Starch Stärke

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show abstract

Optimization and characterization of active bio-plastic film from tamarind (Tamarindus indica L.) seed starch enriched with red grape pomace extract

Moges,

Kassa,

Woldemariam

2024

Biomass Conv. Bioref.

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Investigating next-generation edible packaging: Protein-based films and coatings for delivering active compounds

Khin,

Ahammed,

Kamal

et al. 2024

Food Hydrocolloids for Health

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Properties Comparison of Oxidized and Heat Moisture Treated (HMT) Starch-Based Biodegradable Films

Cited by 9 publications

References 94 publications

Dry Heat Treatment of Finger Millet Starch for Thin Films—Studies on Physicochemical, Mechanical, and Barrier Properties

Dry Heat Treatment of Finger Millet Starch for Thin Films—Studies on Physicochemical, Mechanical, and Barrier Properties

Optimization and characterization of active bio-plastic film from tamarind (Tamarindus indica L.) seed starch enriched with red grape pomace extract

Investigating next-generation edible packaging: Protein-based films and coatings for delivering active compounds

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