Issue 13, 2024

A co-type ductile film with high tensile strength and fast self-healing properties for shaped fruit preservation

Abstract

Traditional petroleum-based plastics have high energy consumption, require professional equipment, are non-degradable after use, and lack antibacterial properties, making it impossible to achieve long-lasting freshness in fruits and vegetables. Herein, we report a novel co-type film-forming method with low energy consumption and without production equipment, which uses PVA-borax gel as a substrate and adds a certain proportion of CMC and TA to prepare multifunctional CMC/TA@PVA-borax composite hydrogels (CTPB). The dynamic borax ester bonding and hydrogen bonding in the CTPB hydrogel results in an ultra-high tensile strength of more than 5500% and rapid self-healing within 8 s. Interestingly, hydrogels can be arbitrarily shaped and stretched like play dough and thus can be stretched into ductile films by co-type film formation. The antimicrobial properties of the hydrogel film can be attributed to the synergistic effects of TA and borax. The mussel structure of TA allows the hydrogel film to adhere directly to different surfaces for more effective bacterial killing. In addition, the hydrogel film has a high level of biosafety and biodegradability and shows good performance in fruit storage. This study provides a convenient and low-energy method for the preparation of films, which in part reduces the increasing environmental pollution caused by petroleum-based plastics.

Graphical abstract: A co-type ductile film with high tensile strength and fast self-healing properties for shaped fruit preservation

Supplementary files

Article information

Article type
Paper
Submitted
05 Dec 2023
Accepted
23 Feb 2024
First published
08 Mar 2024

J. Mater. Chem. B, 2024,12, 3262-3272

A co-type ductile film with high tensile strength and fast self-healing properties for shaped fruit preservation

L. Liu, Y. Zhang, F. Jiang, Q. He and B. Lin, J. Mater. Chem. B, 2024, 12, 3262 DOI: 10.1039/D3TB02862C

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