Abstract
Functionalization of polysaccharide-based packaging incorporating inorganic nanoparticles for food preservation is an active research area. This review summarizes the use of polysaccharide-based materials functionalized with inorganic nanoparticles (TiO2, ZnO, Ag, SiO2, Al2O3, Fe2O3, Zr, MgO, halloysite, and montmorillonite) to develop hybrid packaging for fruit, vegetables, meat (lamb, minced, pork, and poultry), mushrooms, cheese, eggs, and Ginkgo biloba seeds preservation. Their effects on quality parameters and shelf life are also discussed. In general, treated fruit, vegetables, mushrooms, and G. biloba seeds markedly increased their shelf life without significant changes in their sensory attributes, associated with a slowdown effect in the ripening process (respiration rate) due to the excellent gas exchange and barrier properties that effectively prevented dehydration, weight loss, enzymatic browning, microbial infections by spoilage and foodborne pathogenic bacteria, and mildew apparition in comparison with uncoated or polysaccharide-coated samples. Similarly, hybrid packaging showed protective effects to preserve meat products, cheese, and eggs by preventing microbial infections and lipid peroxidation, extending the food product’s shelf life without changes in their sensory attributes. According to the evidence, polysaccharide-hybrid packaging can preserve the quality parameters of different food products. However, further studies are needed to guarantee the safe implementation of these organic–inorganic packaging materials in the food industry.
Highlights
This review summarizes the advantages and limitations of polysaccharide-based materials functionalized with inorganic nanoparticles for food packaging material and their effect on quality parameters and shelf life of different food products
Most of the potential applications of polysaccharide-based materials for food packagof theare potential applications of polysaccharide-based for food packingMost purposes restricted by their poor gas permeability, lowmaterials water-barrier ability, low aging purposes arehigh restricted by their poor gas permeability, low water-barrier ability,in thermal stability, solubility, and mechanical resistance, which are limiting factors low stability, high solubility, and mechanical resistance, which arepolysaccharidelimiting facthethermal food preservation process
The barrier properties of chitosan film and the antimicrobial properties of zinc oxide have a great impact in okra preservation
Summary
Food packaging against spoilage is based on reducing the growth of undesirable and spoilage-related microorganisms, preventing, or slowing down other processes that may induce undesirable modifications in the food matrix [17]. The development of new packaging materials that maintain the quality, safety, and sensorial properties of several food products, extending their shelf life, facilitating their handling and storage, with an excellent cost-benefit relation is an active research area. In this context, polysaccharides are considered a viable alternative to fabricate food packaging materials because they are abundant, non-toxic, biodegradable, low-cost, and biocompatible [1], exhibiting an excellent film-forming ability and potential to be used in the food industry as packaging.
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