Gelatin- and Papaya-Based Biodegradable and Edible Packaging Films to Counter Plastic Waste Generation.

Jaweria Ashfaq,Mohammed M Ghoneim,Sultan Alshehri,Ashfaque Birmahani,Aqeel Ahmed Shah,Bushra Bughio,Asif Ahmed Shaikh,Ali Dad Chandio,Iftikhar Ahmed Channa

doi:10.3390/ma15031046

Abstract

Most of the food packaging materials used in the market are petroleum-based plastics; such materials are neither biodegradable nor environmentally friendly and require years to decompose. To overcome these problems, biodegradable and edible materials are encouraged to be used because such materials degrade quickly due to the actions of bacteria, fungi, and other environmental effects. In this work, commonly available household materials such as gelatin, soy protein, corn starch, and papaya were used to prepare cost-effective lab-scale biodegradable and edible packaging film as an effective alternative to commercial plastics to reduce waste generation. Prepared films were characterized in terms of Fourier transform infrared spectroscopy (FTIR), water vapor transmission rate (WVTR), optical transparency, and tensile strength. FTIR confirmed the addition of papaya and soy protein to the gelatin backbone. WVTR of the gelatin-papaya films was recorded to be less than 50 g/m2/day. This water vapor barrier was five times better than films of pristine gelatin. The gelatin, papaya, and soy protein films exhibited transparencies of around 70% in the visible region. The tensile strength of the film was 2.44 MPa, which improved by a factor of 1.5 for the films containing papaya and soy protein. The barrier qualities of the gelatin and gelatin-papaya films maintained the properties even after going through 2000 bending cycles. From the results, it is inferred that the prepared films are ideally suitable for food encapsulation and their production on a larger scale can considerably cut down the plastic wastage.

Highlights

The quality of food is the most important factor for its manufacturing and selling points of view [1]
FT-IR spectra of edible films showed that the addition of gelatin and soy protein to papaya did not change the molecular interactions of the resulting films, but it decreased the intensity of the peak slightly
The results showed that the water vapor transmission rate (WVTR) of the edible gelatinous film was slightly higher than that of papaya, which may be due to the water-induced swelling of the membrane [57]

Summary

Introduction

The quality of food is the most important factor for its manufacturing and selling points of view [1]. The most utilized non-biodegradable plastics are polyethylene (PE), polypropylene (PP), polyethylene terephthalate (PET), polytrimethylene terephthalate (PTT), and polyamide (PA) [12] All these types of plastics, on one hand, are easy to manufacture, but, on the other hand, pose serious environmental safety-related issues such as long-term degradation rate and damage to natural ecosystems [13]. For these reasons, the use of environmentally friendly materials as alternatives to non-biodegradable plastic packaging is unavoidable. Such materials disintegrate readily due to the operations of bacteria, fungus, and other living creatures [15]

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Conclusion