Application of chitosan nanoparticles in quality and preservation of postharvest fruits and vegetables: A review

Wang, Suyan; Herrera‐Balandrano, Daniela D.; Jiang, Yong‐Hui; Shi, Xin-Chi; Chen, Xin; Liu, Fengquan; Laborda, Pedro

doi:10.1111/1541-4337.13128

Cited by 15 publications

(3 citation statements)

References 184 publications

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“…However, with all nanoparticles, there is uncertainty about safety, particularly for food applications. While this applies to both inorganic and metal nanoparticles, heavy metal nanoparticles such as titanium or copper are concerns for food consumers’ health . Therefore, further research into compatibility of films with food packaging applications with a view toward food safety should be conducted.…”

Section: Modifications To Improve the Physicochemical Properties Of S...mentioning

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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Section: Modifications To Improve the Physicochemical Properties Of S...mentioning

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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“…Chitosan is a product formed after deacetylation of chitin with film-forming property (Assaf et al 2020). Studies have shown that chitosan, when coated on postharvest fruits, can not only effectively block the invasion of pathogenic fungi through mechanical barrier, but also induce fruit resistance by its hydrolysates (Wang et al 2023). On this basis, this study mainly discusses the inhibitory effect of chitosan on pathogenic fungi and its influence on antagonistic bacteria.…”

Section: Introductionmentioning

confidence: 99%

Effects of chitosan combined with microbes on blue mold of apples

Fu,

Yu,

Zhang

et al. 2024

Bangladesh J. Bot.

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Investigation on the inhibitory effect of chitosan combined with antagonistic bacteria on pathogenic fungi, at different concentrations on Penicillium expansum were studied in vitro and in vivo with Japanese Red Fuji apples. The chitosan solution with the concentration of 2% had the strongest resistance to Penicillium expansum and blue mold decay without affecting the growth of Bacillus amyloliquefaciens BA-16-8. Both the bacterial suspension and cell-free fermentation liquor of Bacillus amyloliquefaciens BA-16-8 could inhibit Penicillium expansum, and the former is superior to the latter in effect. Bacillus amyloliquefaciens BA-16-8 combined with chitosan can inhibit the activity and toxin-producing ability of Penicillium expansum. Bangladesh J. Bot. 53(1): 25-32, 2024 (March)

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“…Nano-farming refers to the application of nanomaterials (NMs) or nanoparticles (NPs) in agricultural production [34]. This can be performed in different ways, including nano-priming of seeds to increase germination through the regulation of ROS [35], nanofertilization to increase crop productivity during the growing season [36], nano-pesticide application for plant protection [37], nano-sensors to support smart farming [38,39], nanoharvest [40] or nano-postharvest [41,42] applications to reduce food spoilage, and plant nano-bionics to enhance or modify plant functions [43]. Nanomaterials have the potential to enhance the productivity of crops by improving the delivery of nutrients, managing pest control, and supporting crop stress resilience [44].…”

Section: Introductionmentioning

confidence: 99%

Nano-Food Farming Approaches to Mitigate Heat Stress under Ongoing Climate Change: A Review

El-Ramady,

Prokisch,

El-Mahrouk

et al. 2024

Agriculture

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Increased heat stress is a common feature of global climate change and can cause adverse impacts on crops from germination through maturation and harvest. This review focuses on the impacts of extreme heat (>35 °C) on plants and their physiology and how they affect food and water security. The emphasis is on what can be done to minimize the negative effects of heat stress, which includes the application of various materials and approaches. Nano-farming is highlighted as one promising approach. Heat is often combined with drought, salinity, and other stresses, which together affect the whole agroecosystem, including soil, plants, water, and farm animals, leading to serious implications for food and water resources. Indeed, there is no single remedy or approach that can overcome such grand issues. However, nano-farming can be part of an adaptation strategy. More studies are needed to verify the potential benefits of nanomaterials but also to investigate any negative side-effects, particularly under the intensive application of nanomaterials, and what problems this might create, including potential nanotoxicity.

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Application of chitosan nanoparticles in quality and preservation of postharvest fruits and vegetables: A review

Cited by 15 publications

References 184 publications

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

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

Effects of chitosan combined with microbes on blue mold of apples

Nano-Food Farming Approaches to Mitigate Heat Stress under Ongoing Climate Change: A Review

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