Enhanced antibacterial effect and biodegradation of coating via dual-in-situ growth based on carboxymethyl cellulose

The lack of antimicrobial effect of commercial paper coating for food packaging makes it difficult to prevent food spoilage and harms the environment by non-biodegradation. Herein, carboxymethyl cellulose (CMC) provides negatively charged sites for anchoring Ag+ and Zn2+ to grow AgNPs and ZIF-8 in s...

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Published inCarbohydrate polymers Vol. 302; p. 120433
Main Authors Lin, Zhenhao, Fu, Hao, Zhang, Yuancheng, Deng, Yongfu, Wei, Fuxiang, Li, Hao, Xu, Chuanhui, Hua, Fuli, Lin, Baofeng
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 15.02.2023
Subjects
adhesion
AgNPs
Anti-Bacterial Agents - pharmacology
Antibacterial
antibacterial properties
Biodegradable
biodegradation
Carboxymethyl cellulose
carboxymethylcellulose
Carboxymethylcellulose Sodium - pharmacology
Food Packaging
food safety
food spoilage
Mechanical Phenomena
shelf life
soil
Solubility
thermal stability
water solubility
water vapor
ZIF-8
Carboxymethyl cellulose
AgNPs
Biodegradable
Antibacterial
ZIF-8
Online AccessGet full text
ISSN0144-8617
1879-1344
1879-1344
DOI10.1016/j.carbpol.2022.120433

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Abstract The lack of antimicrobial effect of commercial paper coating for food packaging makes it difficult to prevent food spoilage and harms the environment by non-biodegradation. Herein, carboxymethyl cellulose (CMC) provides negatively charged sites for anchoring Ag+ and Zn2+ to grow AgNPs and ZIF-8 in situ on its molecular chains. The ZIF-8/AgNPs@CMC paper coating has excellent synergistic antibacterial activity to prolong the shelf-life of food. It not only has good thermal stability but binds closely to the paper and its adhesion force reaches 628.9 nN. Besides, the ZIF-8/AgNPs@CMC coated paper has better mechanical properties, water vapor barrier, and resists water solubility. Interestingly, due to the confinement effect of ZIF-8, the cumulative release of AgNPs after 168 h is only 2.66 % to avoid possible food safety risks. Especially, the coating can be almost biodegraded in the soil after 30 days, which provides the possibility to replace the non-biodegradable coatings in food packaging. Preparation and application process of the ZIF-8/AgNPs@CMC paper coating. [Display omitted] •Carboxymethyl cellulose provided negatively charged sites to grow ZIF-8 in situ.•Carboxymethyl cellulose successfully reduced AgNPs in situ through its reducibility.•The coating had an excellent antibacterial effect to prolong the shelf-life of food.•The coating was effectively biodegraded to avoid pollution of the environment.
AbstractList The lack of antimicrobial effect of commercial paper coating for food packaging makes it difficult to prevent food spoilage and harms the environment by non-biodegradation. Herein, carboxymethyl cellulose (CMC) provides negatively charged sites for anchoring Ag⁺ and Zn²⁺ to grow AgNPs and ZIF-8 in situ on its molecular chains. The ZIF-8/AgNPs@CMC paper coating has excellent synergistic antibacterial activity to prolong the shelf-life of food. It not only has good thermal stability but binds closely to the paper and its adhesion force reaches 628.9 nN. Besides, the ZIF-8/AgNPs@CMC coated paper has better mechanical properties, water vapor barrier, and resists water solubility. Interestingly, due to the confinement effect of ZIF-8, the cumulative release of AgNPs after 168 h is only 2.66 % to avoid possible food safety risks. Especially, the coating can be almost biodegraded in the soil after 30 days, which provides the possibility to replace the non-biodegradable coatings in food packaging.
The lack of antimicrobial effect of commercial paper coating for food packaging makes it difficult to prevent food spoilage and harms the environment by non-biodegradation. Herein, carboxymethyl cellulose (CMC) provides negatively charged sites for anchoring Ag+ and Zn2+ to grow AgNPs and ZIF-8 in situ on its molecular chains. The ZIF-8/AgNPs@CMC paper coating has excellent synergistic antibacterial activity to prolong the shelf-life of food. It not only has good thermal stability but binds closely to the paper and its adhesion force reaches 628.9 nN. Besides, the ZIF-8/AgNPs@CMC coated paper has better mechanical properties, water vapor barrier, and resists water solubility. Interestingly, due to the confinement effect of ZIF-8, the cumulative release of AgNPs after 168 h is only 2.66 % to avoid possible food safety risks. Especially, the coating can be almost biodegraded in the soil after 30 days, which provides the possibility to replace the non-biodegradable coatings in food packaging.The lack of antimicrobial effect of commercial paper coating for food packaging makes it difficult to prevent food spoilage and harms the environment by non-biodegradation. Herein, carboxymethyl cellulose (CMC) provides negatively charged sites for anchoring Ag+ and Zn2+ to grow AgNPs and ZIF-8 in situ on its molecular chains. The ZIF-8/AgNPs@CMC paper coating has excellent synergistic antibacterial activity to prolong the shelf-life of food. It not only has good thermal stability but binds closely to the paper and its adhesion force reaches 628.9 nN. Besides, the ZIF-8/AgNPs@CMC coated paper has better mechanical properties, water vapor barrier, and resists water solubility. Interestingly, due to the confinement effect of ZIF-8, the cumulative release of AgNPs after 168 h is only 2.66 % to avoid possible food safety risks. Especially, the coating can be almost biodegraded in the soil after 30 days, which provides the possibility to replace the non-biodegradable coatings in food packaging.
The lack of antimicrobial effect of commercial paper coating for food packaging makes it difficult to prevent food spoilage and harms the environment by non-biodegradation. Herein, carboxymethyl cellulose (CMC) provides negatively charged sites for anchoring Ag and Zn to grow AgNPs and ZIF-8 in situ on its molecular chains. The ZIF-8/AgNPs@CMC paper coating has excellent synergistic antibacterial activity to prolong the shelf-life of food. It not only has good thermal stability but binds closely to the paper and its adhesion force reaches 628.9 nN. Besides, the ZIF-8/AgNPs@CMC coated paper has better mechanical properties, water vapor barrier, and resists water solubility. Interestingly, due to the confinement effect of ZIF-8, the cumulative release of AgNPs after 168 h is only 2.66 % to avoid possible food safety risks. Especially, the coating can be almost biodegraded in the soil after 30 days, which provides the possibility to replace the non-biodegradable coatings in food packaging.
The lack of antimicrobial effect of commercial paper coating for food packaging makes it difficult to prevent food spoilage and harms the environment by non-biodegradation. Herein, carboxymethyl cellulose (CMC) provides negatively charged sites for anchoring Ag+ and Zn2+ to grow AgNPs and ZIF-8 in situ on its molecular chains. The ZIF-8/AgNPs@CMC paper coating has excellent synergistic antibacterial activity to prolong the shelf-life of food. It not only has good thermal stability but binds closely to the paper and its adhesion force reaches 628.9 nN. Besides, the ZIF-8/AgNPs@CMC coated paper has better mechanical properties, water vapor barrier, and resists water solubility. Interestingly, due to the confinement effect of ZIF-8, the cumulative release of AgNPs after 168 h is only 2.66 % to avoid possible food safety risks. Especially, the coating can be almost biodegraded in the soil after 30 days, which provides the possibility to replace the non-biodegradable coatings in food packaging. Preparation and application process of the ZIF-8/AgNPs@CMC paper coating. [Display omitted] •Carboxymethyl cellulose provided negatively charged sites to grow ZIF-8 in situ.•Carboxymethyl cellulose successfully reduced AgNPs in situ through its reducibility.•The coating had an excellent antibacterial effect to prolong the shelf-life of food.•The coating was effectively biodegraded to avoid pollution of the environment.
ArticleNumber 120433
Author Zhang, Yuancheng
Wei, Fuxiang
Fu, Hao
Lin, Zhenhao
Deng, Yongfu
Li, Hao
Hua, Fuli
Xu, Chuanhui
Lin, Baofeng
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Keywords Carboxymethyl cellulose
AgNPs
Biodegradable
Antibacterial
ZIF-8
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Snippet The lack of antimicrobial effect of commercial paper coating for food packaging makes it difficult to prevent food spoilage and harms the environment by...
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SubjectTerms adhesion
AgNPs
Anti-Bacterial Agents - pharmacology
Antibacterial
antibacterial properties
Biodegradable
biodegradation
Carboxymethyl cellulose
carboxymethylcellulose
Carboxymethylcellulose Sodium - pharmacology
Food Packaging
food safety
food spoilage
Mechanical Phenomena
shelf life
soil
Solubility
thermal stability
water solubility
water vapor
ZIF-8
Title Enhanced antibacterial effect and biodegradation of coating via dual-in-situ growth based on carboxymethyl cellulose
URI https://dx.doi.org/10.1016/j.carbpol.2022.120433
https://www.ncbi.nlm.nih.gov/pubmed/36604093
https://www.proquest.com/docview/2761976484
https://www.proquest.com/docview/3154166907
Volume 302
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