Synthesis of Biodegradable Film Made from Sodium Alginate Embedded with Magnesium Nanoparticles for Food Packaging Applications

IF 0.7 4区 工程技术 Q4 ENGINEERING, CHEMICAL
Harish Kumar, Anuj Kumar Singh, Munendra Kumar, Kusagra Singh,  Vishal, Ankur Gaur, M. S. Karuna, Afreen Nishat, Laiba Saltnat
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Abstract

The current work focuses on the synthesis of the biodegradable film made from Sodium alginate (S.A), and then the addition of magnesium oxide nanoparticles (MgO-NPs) was synthesized by sol-gel technique. Glycerol which is a plasticizer is used to enhance the tensile strength (TS) and film expansion due to a decrease in intermolecular forces in the polymer chain. With the addition of olive oil (OE), the functional properties of control films were improved, which results in a lowering of water solubility, and moisture content but the tensile strength slightly decreased. The opacity, moisture absorption, and solubility of the film, thickness, tensile strength (TS), elongation (EB), ultraviolet-vis spectroscopy, scanning electron microscope (SEM), transmission electron microscopy (TEM) were used to characterize sodium alginate biofilm with the addition of MgO-NPs (SA1) and without the addition of MgO-NPs (SA2). But considering all other factors, the film (SA1) revealed a slower rate of degradation than the film (SA2). The film’s TS and opacity are enhanced by MgO-NPs addition, while moisture content (WVP), solubility, and elongation at break are decreased.

Abstract Image

利用嵌入镁纳米颗粒的海藻酸钠合成用于食品包装的生物降解薄膜
当前工作的重点是用海藻酸钠(S.A)合成生物可降解薄膜,然后通过溶胶-凝胶技术合成氧化镁纳米粒子(MgO-NPs)。甘油是一种增塑剂,可用于增强拉伸强度(TS)和薄膜膨胀性,这是因为聚合物链中的分子间作用力减小了。添加橄榄油(OE)后,对照薄膜的功能特性得到改善,水溶性和含水量降低,但拉伸强度略有下降。使用不透明度、吸湿性、薄膜溶解度、厚度、拉伸强度(TS)、伸长率(EB)、紫外可见光谱、扫描电子显微镜(SEM)和透射电子显微镜(TEM)对添加了 MgO-NPs 的海藻酸钠生物膜(SA1)和未添加 MgO-NPs 的海藻酸钠生物膜(SA2)进行了表征。但考虑到所有其他因素,薄膜(SA1)的降解速度比薄膜(SA2)慢。添加 MgO-NPs 后,薄膜的 TS 和不透明度提高了,而含水量 (WVP)、溶解度和断裂伸长率则降低了。
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来源期刊
CiteScore
1.20
自引率
25.00%
发文量
70
审稿时长
24 months
期刊介绍: Theoretical Foundations of Chemical Engineering is a comprehensive journal covering all aspects of theoretical and applied research in chemical engineering, including transport phenomena; surface phenomena; processes of mixture separation; theory and methods of chemical reactor design; combined processes and multifunctional reactors; hydromechanic, thermal, diffusion, and chemical processes and apparatus, membrane processes and reactors; biotechnology; dispersed systems; nanotechnologies; process intensification; information modeling and analysis; energy- and resource-saving processes; environmentally clean processes and technologies.
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