Effect of food simulants on stability of copper oxide in bionanocomposite food packaging film

IF 2.8 4区工程技术 Q2 ENGINEERING, MANUFACTURING

Packaging Technology and Science Pub Date : 2023-04-20 DOI:10.1002/pts.2734

Nattinee Bumbudsanpharoke, Busarin Chongcharoenyanon, N. Harnkarnsujarit, Seongyoung Kwon, Seonghyuk Ko

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引用次数: 0

Abstract

Addition of copper oxide nanoparticles (CuONPs) to poly (butylene‐adipate‐co‐terephthalate) (PBAT)/thermoplastic starch (TPS) biopolymer blend produced bionanocomposite films with improved mechanical and oxygen barrier properties, as well as enhanced other benefits including antimicrobial activity. In this study, the PBAT/TPS‐CuO bionanocomposite films with varying CuONPs contents (0.05%, 0.5%, 1%, and 2%) were challenged by food simulants (10% ethanol represented to aqueous food and 3% acetic acid represented to acidic food) in accordance with European Regulation 10/2011. CuONPs in the bionanocomposite films demonstrated good stability when exposed to 10% ethanol; however, it was dissolved in 3% acetic acid. The X‐ray diffraction and the energy dispersive spectroscopy results showed that CuONPs in the film were completely lost after acid exposure, whereas CuONPs in the films exposed to 10% EtOH were preserved. The maximum overall migration value was 5.0 mg/dm2. Inductively coupled plasma optical emission spectroscopy was used to confirm the presence of Cu in the simulants. The highest soluble Cu value of 12.39 mg/kg was detected from PBAT/TPS‐CuO2%, while migration value decreased as concentration ratio in film decreased. Although both values were within the threshold limits established by current legislation for non‐specific migration limit substances in food contact materials, the properties of bionanocomposite were altered. The mechanical properties of a post‐migrated PBAT‐TPS/CuO films taken from acidic conditions were reduced by 22% in tensile strength and 53% in elongation at break due to holes and microcracks on the film surface observed by scanning electron microscope. The average sealing strength of all bionanocomposite films decreased by about 25% after acid exposure. The oxygen permeability, on the other hand, was significantly improved, with a 16.3% reduction. Because the film had lost all of its active agent, film was unable to inhibit Escherichia coli growth. While 3% acetic acid caused dissolution of CuONPs and significant changes in properties of PBAT/TPS‐CuO film, 10% ethanol caused very minor to no changes in bionanocomposite film properties.

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食品模拟剂对生物纳米复合食品包装膜中氧化铜稳定性的影响

将氧化铜纳米粒子(CuONPs)添加到聚己二酸丁二酸酯(PBAT)/热塑性淀粉(TPS)生物聚合物共混物中，产生的生物纳米复合膜具有更好的机械和氧屏障性能，以及增强的其他益处，包括抗菌活性。在这项研究中，根据欧洲法规10/2011，用食品模拟剂(10%乙醇代表含水食品，3%醋酸代表酸性食品)挑战具有不同CuONPs含量(0.05%，0.5%，1%和2%)的PBAT/TPS‐CuO生物纳米复合膜。当暴露于10%乙醇时，生物纳米复合膜中的CuONPs表现出良好的稳定性;然而，它被溶解在3%的醋酸中。X射线衍射和能谱分析结果表明，酸处理后薄膜中的CuONPs完全丢失，而10% EtOH处理后薄膜中的CuONPs则被保留。最大总迁移值为5.0 mg/dm2。采用电感耦合等离子体发射光谱法证实了模拟物中Cu的存在。PBAT/TPS‐CuO2%溶液的可溶性Cu值最高，为12.39 mg/kg，迁移值随膜内浓度比的降低而降低。虽然这两个值都在食品接触材料中非特异性迁移限制物质的现行立法规定的阈值范围内，但生物纳米复合材料的特性发生了变化。通过扫描电镜观察，在酸性条件下迁移后的PBAT - TPS/CuO薄膜的拉伸强度降低了22%，断裂伸长率降低了53%，这是由于薄膜表面存在孔洞和微裂纹。酸暴露后，所有生物纳米复合膜的平均密封强度下降了约25%。另一方面，氧渗透率显著提高，降低了16.3%。由于薄膜失去了所有的活性物质，因此薄膜无法抑制大肠杆菌的生长。3%的乙酸会导致CuONPs的溶解和PBAT/TPS‐CuO膜性能的显著变化，而10%的乙醇对生物纳米复合膜性能的影响很小甚至没有变化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Packaging Technology and Science 工程技术-工程：制造

CiteScore

4.90

自引率

7.70%

发文量

审稿时长

>12 weeks

期刊介绍： Packaging Technology & Science publishes original research, applications and review papers describing significant, novel developments in its field. The Journal welcomes contributions in a wide range of areas in packaging technology and science, including: -Active packaging -Aseptic and sterile packaging -Barrier packaging -Design methodology -Environmental factors and sustainability -Ergonomics -Food packaging -Machinery and engineering for packaging -Marketing aspects of packaging -Materials -Migration -New manufacturing processes and techniques -Testing, analysis and quality control -Transport packaging