Preparation and Characterization of Carboxymethyl Cellulose Films with Embedded Essential Oils

A. Biswas, R. Furtado, M. Bastos, S. Benevides, M. Oliveira, V. Boddu, H. N. Cheng
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引用次数: 19

Abstract

There is current interest in using biobased materials to produce food packaging that can increase the shelf-lives of fruits and vegetables and minimize food spoilage in supermarkets and at the same time not generating plastic waste that causes long-term disposal problems. A good candidate for such materials is the polysaccharide, such as carboxymethyl cellulose (CMC), which is edible and biodegradable. In this work films were produced from two CMC materials with different degrees of substitution (DS) that encapsulated four different essential oils (eugenol, rosemary oil, coriander oil, and nutmeg oil) that are known to have beneficial properties for food applications. The mechanical properties, opacity, and water vapor permeation were evaluated. In general, the essential oil-embedded CMC with the two DS values behaved rather differently. In particular, the essential oil-embedded CMC with 0.7 DS degree of substitution gave stronger and more flexible films and may be more suited for use in food packaging.
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精油包埋羧甲基纤维素膜的制备与表征
目前人们对使用生物基材料生产食品包装很感兴趣,这种包装可以延长水果和蔬菜的保质期,最大限度地减少食品在超市中的变质,同时不会产生塑料废物,造成长期的处理问题。这种材料的一个很好的候选者是多糖,如羧甲基纤维素(CMC),它是可食用和可生物降解的。在这项工作中,用两种不同取代度(DS)的CMC材料制成薄膜,这些材料封装了四种不同的精油(丁香酚、迷迭香油、香菜油和肉豆蔻油),这些精油已知对食品应用具有有益的特性。对其力学性能、不透明度和水蒸气渗透性进行了评价。总体而言,两种DS值的精油包埋CMC表现有较大差异。特别是,0.7 DS取代度的精油包埋CMC薄膜更坚固、更柔韧,更适合用于食品包装。
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