Polyvinyl alcohol film with chlorine dioxide microcapsules can be used for blueberry preservation by slow-release of chlorine dioxide gas

Abstract

Introduction: Chlorine dioxide (ClO₂) is a safe and efficient bactericide with unique advantages in reducing foodborne illnesses, inhibiting microbial growth, and maintaining the nutritional quality of food. However, gaseous ClO₂ is sensitive to heat, vibration, and light, which limits its application.

Methods: In this study, a ClO₂ precursor-stabilized ClO₂ aqueous solution was encapsulated by the double emulsion method, and a high-performance ClO₂ self-releasing polyvinyl alcohol (PVA) film was prepared to investigate its performance and effect on blueberry quality during storage.

Results: The self-releasing films had the best overall performance when the microcapsule content was 10% as the film's mechanical properties, thermal stability, and film barrier properties were significantly improved. The inhibition rates of Listeria monocytogenes and Escherichia coli were 93.69% and 95.55%, respectively, and the mycelial growth of Staphylococcus griseus was successfully inhibited. The resulting ClO₂ self-releasing films were used for blueberry preservation, and an experimental study found that the ClO₂ self-releasing antimicrobial film group delayed the quality decline of blueberries. During the 14-day storage period, no mold contamination was observed in the ClO₂ self-releasing film group, and blueberries in the antibacterial film group had higher anthocyanin accumulation during the storage period.

Discussion: Research analysis showed that films containing ClO₂ microcapsules are promising materials for future fruit and vegetable packaging.

Keywords: PVA film; blueberry preservation; chlorine dioxide; double emulsion; microencapsulation.