Recent advances in nanocellulose based hydrogels: Preparation strategy, typical properties and food application

Nanocellulose has been favored as one of the most promising sustainable nanomaterials, due to its competitive advantages and superior performances such as hydrophilicity, renewability, biodegradability, biocompatibility, tunable surface features, excellent mechanical strength, and high specific surf...

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Veröffentlicht in:	International journal of biological macromolecules 2024-10, Vol.277 (Pt 1), p.134015, Article 134015
Hauptverfasser:	Lv, Xiangxiang, Huang, Yue, Hu, Mengtao, Wang, Yuxi, Dai, Difei, Ma, Liang, Zhang, Yuhao, Dai, Hongjie
Format:	Artikel
Sprache:	eng
Schlagworte:	Adsorption Biocompatible Materials - chemistry Cellulose - chemistry Food application Food Packaging Hydrogel Hydrogels - chemistry Nanocellulose Nanostructures - chemistry Porosity Preparation Property
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container_title	International journal of biological macromolecules
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creator	Lv, Xiangxiang Huang, Yue Hu, Mengtao Wang, Yuxi Dai, Difei Ma, Liang Zhang, Yuhao Dai, Hongjie
description	Nanocellulose has been favored as one of the most promising sustainable nanomaterials, due to its competitive advantages and superior performances such as hydrophilicity, renewability, biodegradability, biocompatibility, tunable surface features, excellent mechanical strength, and high specific surface area. Based on the above properties of nanocellulose and the advantages of hydrogels such as high water absorption, adsorption, porosity and structural adjustability, nanocellulose based hydrogels integrating the benefits of both have attracted extensive attention as promising materials in various fields. In this review, the main fabrication strategies of nanocellulose based hydrogels are initially discussed in terms of different crosslinking methods. Then, the typical properties of nanocellulose based hydrogels are comprehensively summarized, including porous structure, swelling ability, adsorption, mechanical, self-healing, smart response performances. Especially, relying on these properties, the general application of nanocellulose based hydrogels in food field is also discussed, mainly including food packaging, food detection, nutrient embedding delivery, 3D food printing, and enzyme immobilization. Finally, the safety of nanocellulose based hydrogel is summarized, and the current challenges and future perspectives of nanocellulose based hydrogels are put forward. [Display omitted] •Different crosslinking strategies of nanocellulose based hydrogels are summarized.•Typical properties closely related to food application of hydrogels are emphasized.•Various potential applications of hydrogels in food field are highlighted.•Safety, challenges, and prospects of nanocellulose based hydrogels are discussed.
doi_str_mv	10.1016/j.ijbiomac.2024.134015
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Based on the above properties of nanocellulose and the advantages of hydrogels such as high water absorption, adsorption, porosity and structural adjustability, nanocellulose based hydrogels integrating the benefits of both have attracted extensive attention as promising materials in various fields. In this review, the main fabrication strategies of nanocellulose based hydrogels are initially discussed in terms of different crosslinking methods. Then, the typical properties of nanocellulose based hydrogels are comprehensively summarized, including porous structure, swelling ability, adsorption, mechanical, self-healing, smart response performances. Especially, relying on these properties, the general application of nanocellulose based hydrogels in food field is also discussed, mainly including food packaging, food detection, nutrient embedding delivery, 3D food printing, and enzyme immobilization. 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Finally, the safety of nanocellulose based hydrogel is summarized, and the current challenges and future perspectives of nanocellulose based hydrogels are put forward. 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subjects	Adsorption Biocompatible Materials - chemistry Cellulose - chemistry Food application Food Packaging Hydrogel Hydrogels - chemistry Nanocellulose Nanostructures - chemistry Porosity Preparation Property
title	Recent advances in nanocellulose based hydrogels: Preparation strategy, typical properties and food application
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