Autoria: CORRÊA-FILHO, L. C.; SANTOS JUNIOR, J. R. dos; RAMOS, A. V.; MARTINAZZO, A. P.; HABERT, A. C.; CARVALHO, C. W. P. de; SOARES, A. G.; TONON, R. V.; CABRAL, L. M. C.

Resumo: This work aimed to develop edible emulsion-based barriers in the form of chitosan composite films, with a focus on assessing the impacts of carnauba wax, rosin resin, and zinc oxide nanoparticles on their properties. Six films were produced by casting using chitosan as polymer base and glycerol as plasticizer. Acetic acid and polysorbate 80 were also used to facilitate the dissolution and mixing of the components. The six filmogenic solutions contained chitosan at 1.2% w/v, wax or resin content with 0 or 0.6% m/v and ZnO with 0 or 0.05% m/v. The dried films were characterized according to their chemical, barrier, mechanical, thermal and optical properties. All treatments resulted in flexible films. Chitosan films appeared smoother and more uniform under SEM im- aging, while carnauba wax films displayed roughness due to their hydrophobic nature. Wax and resin films were less transparent and water soluble than the chitosan-only films. On the other hand, the addition of ZnO in the formulations increased the solubility of the films. The sorption degree was in line with the solubility results, i.e., films with ZnO presented higher sorption degree and solubility values. All treatments showed low or non-light UV transmission, indicating that the films provide good barrier to UV light. In the visible light region, films of resin with ZnO showed the lowest transmittance values, hence offering a good barrier to visible light. Among the evaluated films, chitosan, and resin films with ZnO nanoparticles were more rigid and resistant to deformation. Overall, films produced with rosin resin and ZnO nanoparticles showed potential improvements in barrier, mechanical, thermal, and optical properties, mainly due to their low water solubility, good UV protection and low permeability to water vapor and oxygen, which are suitable for using in formulations, intended to produce edible films and coatings.

Ano de publicação: 2024

Tipo de publicação: Artigo de periódico

Unidade: Embrapa Agroindústria de Alimentos

Palavras-chave: Active packaging, Barrier properties, Biodegradable films, Biodegradable products, Biofilme, Embalagem, Food packaging, Material Biodegradável, Mechanical properties, Packaging films, Polymers, Polímeros, Propriedades mecânicas, Tecnologia de Alimento