Abstract
Preparation of biodegradable packaging materials and valorisation of food industry residues to achieve “zero waste” goals is still a major challenge. Herein, biopolymer-based (carboxymethyl cellulose—CMC) bioactive films were prepared by the addition, alone or in combination, of carvacrol and fungal melanin isolated from champignon mushroom (Agaricus bisporus) agro-industrial residues. The mechanical, optical, thermal, water vapour, and UV-Vis barrier properties were studied. Fourier-transform infrared (FT-IR) spectroscopy studies were carried out to analyse the chemical composition of the resulting films. Antibacterial, antifungal, and antioxidant activities were also determined. Both CMC/melanin and CMC/melanin/carvacrol films showed some antimicrobial activity against Escherichia coli, Staphylococcus aureus, and Candida albicans. The addition of melanin increased the UV-blocking, mechanical, water vapour barrier, and antioxidant properties without substantially reducing the transparency of the films. The addition of carvacrol caused loss of transparency, however, composite CMC/melanin/carvacrol films showed excellent antioxidant activity and enhanced mechanical strength. The developed bioactive biopolymer films have a good potential to be green bioactive alternatives to plastic films in food packaging applications.
Highlights
The packaging industry is currently dominated by synthetic polymers due to their low price and excellent functionality
The properties of modified carboxymethyl cellulose films (CMC)-based films incorporated with fungal melanin and carvacrol were explored in this study
The increase in tensile strength and water vapour barrier properties as well as decrease in elongation at break were observed for CMC/melanin and CMC/melanin/CV films
Summary
The packaging industry is currently dominated by synthetic polymers (plastics) due to their low price and excellent functionality (mechanical strength and high barrier properties). Natural biopolymers and synthetic polymers based on annually renewable resources are the basis of a 21st century portfolio of sustainable, eco-efficient plastics. Biodegradable polymers from renewable resources have attracted a lot of academic and industrial attention worldwide. In view of its high transparency, good film-forming property, large mechanical strength, non-toxicity, and biodegradability, it is found to be suitable for applications such as packaging material (for films and coatings), medicine, flocculating agent, chelating agent, emulsifier, thickening agent, water-retaining agent, and sizing agent [6,7,8,9,10,11]
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