Chitosan–Starch Films Modified with Natural Extracts to Remove Heavy Oil from Water

Lozano-Navarro, Jessica I.; Díaz-Zavala, Nancy P.; Melo-Banda, J.A.; Velasco‐Santos, Carlos; Paraguay‐Delgado, F.; Pérez-Sánchez, Josué F.; Domínguez-Esquivel, José Manuel; Suárez-Domínguez, Edgardo Jonathan; Sosa-Sevilla, Jaime E.

doi:10.3390/w12010017

Cited by 9 publications

(5 citation statements)

References 33 publications

(42 reference statements)

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“…According to Figure 2b, we can see the swelling degree of CS/CH/TP film decreased with the increase of tea polyphenol concentration. Compared with chitosan and starch blend film [42], the swelling degree of CS/CH/TP film was larger. This is due to the hydrophilicity of tea polyphenols with a large number of hydroxyl groups and the hydrogen bond between the hydroxyl group of tea polyphenols and the amino group of chitosan, which leads to the increase of swelling degree.…”

Section: Water Solubility and Swelling Analysismentioning

confidence: 90%

Preparation and Characterization of Functional Films Based on Chitosan and Corn Starch Incorporated Tea Polyphenols

Gao

Zhu

et al. 2021

Coatings

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The functional films based on chitosan and corn starch incorporated tea polyphenols were developed through mixing the chitosan and starch solution and the powder of tea polyphenols by the casting method. The objective of this research was to investigate the effect of different concentrations of tea polyphenols on the functional properties of the films. Attenuated total reflectance Fourier transform infrared spectrometry and X-ray diffraction were used to investigate the potential interactions among chitosan, corn starch and tea polyphenols in the blend films. Physical properties of the blend films, including density, moisture content, opacity, color, water solubility and water swelling, as well as morphological characteristics, were measured. The results demonstrated that the incorporation of tea polyphenols caused the blend films to lead to a darker appearance. The water solubility of the blend film increased with the increase of tea polyphenol concentrations, while moisture content and swelling degree decreased. The hydrogen bonding between chitosan, starch and tea polyphenols restricted the movement of molecular chains and was helpful to the stability of the blend films. The results suggested that these biodegradable blend films could potentially be used as packaging films for the food and drug industries to extend the shelf life to maintain their quality and safety.

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Section: Water Solubility and Swelling Analysismentioning

confidence: 90%

Preparation and Characterization of Functional Films Based on Chitosan and Corn Starch Incorporated Tea Polyphenols

Gao

Zhu

et al. 2021

Coatings

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“…46 The synthesis of starch-chitosan material sometimes involves an addition of different chemicals. According to Lozano-Navarro et al, 47 starch-chitosan films with natural extracts added (e.g., blueberry, beetroot, and grape extracts) have the ability to uptake oil from water. This ability was explained by the hydrophobic interaction between chitosan and the extracts, thus helping to increase the oil affinity.…”

Section: Plasticizersmentioning

confidence: 99%

A Review of the Current and Future Prospects for Producing Bioplastic Films Made from Starch and Chitosan

Nguyen,

Escribà-Gelonch,

Hessel

et al. 2024

ACS Sustainable Chem. Eng.

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This review presents a summary of plastic films made from two abundant natural polymers, starch and chitosan. Films possess many useful attributes such as transparency, good physical strength, and barrier properties. Modifications are being investigated to improve the properties of the product such as reinforcement with nanoparticles, strengthening by cross-linking, and applying surface coatings to improve interfacial properties. We provide perspectives on the use of starch chitosan films as a biobased, biodegradable food packaging material. Additionally, a detailed life-cycle assessment compares the production of chitosan-based polymers to other bioplastics and petroleum-based alternatives. Finally, we predict which factors will be important in the future for making the production of chitosan films economically and environmentally sustainable.

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“…Due to its appealing properties, chitosan based adsorbents have been developed for numerous pollutants, not only pharmaceutical residues. I would recommend the authors to briefly mention the recent applications of chitosan based adsorbents on other common pollutants like heavy metal ions ( Yang et al, 2021 ), dyes ( Vakili et al, 2014 ), heavy oil ( Lozano-Navarro et al, 2020 ) and toxic gases ( Liao and Pan 2021 ).…”

Section: Chitosan-based Adsorbentsmentioning

confidence: 99%

Sustainable adsorptive removal of antibiotic residues by chitosan composites: An insight into current developments and future recommendations

El-Monaem

Eltaweil

Elshishini

et al. 2022

Arabian Journal of Chemistry

108

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Chitosan–Starch Films Modified with Natural Extracts to Remove Heavy Oil from Water

Cited by 9 publications

References 33 publications

Preparation and Characterization of Functional Films Based on Chitosan and Corn Starch Incorporated Tea Polyphenols

Preparation and Characterization of Functional Films Based on Chitosan and Corn Starch Incorporated Tea Polyphenols

A Review of the Current and Future Prospects for Producing Bioplastic Films Made from Starch and Chitosan

Sustainable adsorptive removal of antibiotic residues by chitosan composites: An insight into current developments and future recommendations

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