Development of Antimicrobial and Controlled Biodegradable Gelatin-Based Edible Films Containing Nisin and Amino-Functionalized Montmorillonite

The utilization of petroleum-derived synthetic materials causes severe ecological problems, such as environmental pollution and soil degradation. Hence, using naturally derived and renewable materials to fabricate novel biodegradable films for safe and effective food packaging has been a subject of interest over the years. Here, the novel antimicrobial and controlled biodegradable gelatin-based edible films were developed using nisin as the antimicrobial agent, amino-functionalized montmorillonite as the nanoparticle filler, and dialdehyde xanthan gum as the crosslinking agent. The results indicate that the ultraviolet barrier ability, water resistance, and mechanical properties of gelatin-based edible films are obviously improved on account of the crosslinking effect. Moreover, the resulting films demonstrate antimicrobial activity against Staphylococcus aureus owning to the addition of nisin. Furthermore, the crosslinking can slow down the erosion of the edible films by fungi due to the improved hydrophobicity and compact structure. Particularly, the edible films can be completely biodegraded in soil within 30 days. Meanwhile, the rate of soil biodegradation can be well controlled by adjusting the crosslinking degree. Overall, this novel gelatin-based edible films have potential applications in food packaging.