Issue 1, 2024

Development of strong and high-barrier food packaging films from cyclic-anhydride modified bacterial cellulose

Abstract

Using non-substituted and long-chain substituted cyclic anhydrides as the esterifying agents and dimethyl sulfoxide as the solvent, high water vapor/oxygen/bacterial resistant, mechanically/thermally strong, and biodegradable bacterial cellulose (BC) films have been fabricated according to a simple, efficient, and low-pollution surface modification protocol. The anhydride loading, reaction time and characterization in terms of the esterification degree, crystallinity, microstructures, transparency, barrier resistance, mechanical and thermal properties of the films, and fruit preservation tests were investigated. Modification with 10 wt% dodecenyl succinic anhydride (DSA) increased the dry tensile strength (TS) of the film to 124 MPa and the wet TS to 81 MPa in 30 min. Modification with 10 wt% octadecenyl succinic anhydride (OSA) reduced the water vapor permeability of the film by 84% and yielded the highest antimicrobial effect on the film surface. The film modified with 3 wt% of maleic anhydride (MA) had the strongest oxygen barrier and preserved strawberries most effectively. These films were totally biodegraded in soil within one month and exhibit strong potential to be bio-based and biodegradable food packaging materials.

Graphical abstract: Development of strong and high-barrier food packaging films from cyclic-anhydride modified bacterial cellulose

Supplementary files

Article information

Article type
Paper
Submitted
02 Jul 2023
Accepted
19 Oct 2023
First published
23 Oct 2023
This article is Open Access
Creative Commons BY license

RSC Sustain., 2024,2, 139-152

Development of strong and high-barrier food packaging films from cyclic-anhydride modified bacterial cellulose

Z. Jiang, K. M. Cheung and T. Ngai, RSC Sustain., 2024, 2, 139 DOI: 10.1039/D3SU00219E

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