Using Formic Acid to Promote Bacterial Cellulose Production and Analysis of Its Material Properties for Food Packaging Applications

Abstract

Bacterial cellulose (BC) is a microbial cellulose that presents various characteristics such as high mechanical strength, high water content, and great biocompatibility and biodegradability. Therefore, it provides great potential to be applied in functional packaging applications. In this study, formic acid (80 µg/mL) was found to promote BC production (a 23% increase in yield from 5.18 to 6.38 g/L) utilizing quorum sensing-related gene (ginI) induction within 5 days of cultivation. The enhancement in BC relied on the addition of FA in static culture, and there was no need to shift to another production system, thus providing an economical approach for industrial production. The characteristic analysis showed that the induced BC still retained its high water-holding capacity (98.4%) with no other structure, morphology, or property changes including chemical groups, crystallinity (80.4%), and thermostability (with Tmax at 360 °C). Analysis of the produced BC showed that it is a suitable, ecofriendly biomaterial for food packaging, and its further evaluation will be accomplished in future studies.