Litcius/Paper detail

Reinforcement of biodegradable SiO2NPs-modified cellulose-gelatin hydrogel films with antioxidant and antibacterial properties as potential food packaging composite

Sadia Iqbal, Umair Khalid, Waqar Azim, Maria Kanwal, Nazia Hossain

2024Journal of Cluster Science11 citationsDOIOpen Access PDF

Abstract

Abstract This study proposed an innovative approach to the development of sustainable and biodegradable food packaging materials by incorporating inexpensive nano-silica (SiO 2 NPs) in designed hydrogel (CSG) film employing biodegradable polymers: synthetic polymer polyvinyl alcohol (PVA), natural polymer - carboxymethyl cellulose (CMC) and protein-based bio-polymer –gelatine, and a commercial crosslinker, tetraethoxysilane (TEOS) through a conventional air-dry casting technique. The CSG hydrogel blends were modified with varying amounts of SiO 2 NPs (0.05g, 0.1g, 0.15g and 0.2g) and compared with the blend without SiO 2 NPs to determine the effect of SiO 2 NPs loading through various characterisation techniques and applications including antioxidant and antimicrobial activity. Comprehensive characterizations of the CSG films revealed that CSG 0.1 (containing 0.1g SiO 2 NPs) exhibited the most favourable functional properties, low crystallinity, high flexibility, suitable pore size, thermal stability, adequate tensile strength, elongation at the breaking point and maximum stability by swelling and diffusion test. The addition of SiO 2 NPs consistently enhanced thermal and mechanical stability in all CSG films. Further, these CSG films were implemented for antioxidant test and antimicrobial activity against gram-positive Bacillus cereus and gram-negative Escherichia coli. SiO 2 NPs integration significantly elevated the antioxidant capacity in all films, with CSG 0.1 showing ⁓7% improvement. The antimicrobial activity of SiO 2 NPs-modified CSG films was also notable, with CSG 0.1 effectively inhibiting B. cereus by 1.2cm zone and E. coli by 0.5cm zone. A soil burial test was performed to pattern the biodegradability of CSG hydrogels. Therefore, the outstanding improvements in the intrinsic properties of CSG films, owing to SiO 2 NPs modification, positioned these CSG hydrogels as promising candidates for advanced food packaging materials in various industries.

Topics & Concepts

Materials scienceThermal stabilityChemical engineeringCarboxymethyl celluloseUltimate tensile strengthComposite numberPolymerFood packagingActive packagingCrystallinityPolyvinyl alcoholGelatinComposite materialChemistryOrganic chemistrySodiumMetallurgyFood scienceEngineeringNanocomposite Films for Food PackagingElectrospun Nanofibers in Biomedical Applicationsbiodegradable polymer synthesis and properties