Development of a blue innovative antioxidant, biodegradable packaging material with Clitoria ternatea L. flos

IF 4.8 1区农林科学 Q1 FOOD SCIENCE & TECHNOLOGY

Food Bioscience Pub Date : 2024-09-03 DOI:10.1016/j.fbio.2024.105047

Marcin Szymański , Mikołaj Pawlik , Renata Dobrucka

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引用次数: 0

Abstract

Today, the packaging industry, and in particular the plastic packaging industry, are going to experience a number of challenges as a result of the provisions included in the directive on reducing the environmental impact of plastic packaging materials. Therefore, much attention is being paid to bio-based packaging based on natural and biodegradable polymers. Focus is being placed on natural additives with antioxidant properties to materials, eliminating the risks associated with the migration of chemical, often harmful substances into food. Therefore, in the present study, we obtained a blue antioxidant and biodegradable packaging material with flowers of Clitoria ternatea L., which is additionally safe against selected plants and invertebrates. Furthermore, we observed that the addition of blue matcha improved the barrier properties of the tested films. Samples with matcha CM (cellulose/matcha) and CZM (cellulose/gelatin/matcha) showed WVTR values of 14.44 [g/m²ˑd] and 9.34 [g/m²ˑd], respectively. Antioxidant activity testing by both the DPPH radical and FRAP methods showed the activity of the film containing the matcha extract. The extract alone had the highest activity (DPPH IC50 = 1.44 mg/ml; FRAP IT0.5 = 0.64 mg/ml). CM film had stronger antioxidant activity than CZM film. The film samples without matcha were characterised by TS values of 13.54 [MPa] and 22.24 [MPa], respectively. In contrast, their elongation at break was 74.87 [%] and 41.04 [%]. The samples containing matcha additives showed the weakest mechanical properties: CM and CZM. The cellulose/matcha film (CM) had TS and EAB values of 5.11 [MPa] and 5.05 [%], respectively. Whereas the cellulose/gelatin/matcha film (CZM) had TS and EAB values of 6.45 [MPa] and 1.54 [%], respectively. Application of a high concentration of matcha resulted in a separation of the phase leading to a weakening of the mechanical properties of the films. The observed change in the optical performance of matcha-containing films in this study was due to the blue colour of matcha, which is an effect of the presence of dried flowers. Furthermore, the blue colour of the packaging material has a marketing role as it can make the packaging product ‘stand out’ on the shop shelf.

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利用三尖杉花开发一种蓝色创新抗氧化生物可降解包装材料

如今，由于减少塑料包装材料对环境影响的指令规定，包装行业，特别是塑料包装行业，将面临一系列挑战。因此，以天然和可生物降解聚合物为基础的生物基包装备受关注。目前的重点是在材料中添加具有抗氧化性能的天然添加剂，以消除化学物质（通常是有害物质）迁移到食品中的风险。因此，在本研究中，我们获得了一种蓝色的抗氧化和可生物降解的包装材料，这种材料使用了三棱蓟花，而且对某些植物和无脊椎动物是安全的。此外，我们还观察到添加了蓝色抹茶的薄膜提高了测试薄膜的阻隔性能。抹茶 CM（纤维素/抹茶）和 CZM（纤维素/明胶/抹茶）样品的 WVTR 值分别为 14.44 [g/m2ˑd] 和 9.34 [g/m2ˑd]。用 DPPH 自由基法和 FRAP 法进行的抗氧化活性测试表明，含有抹茶提取物的薄膜具有抗氧化活性。单独提取物的活性最高（DPPH IC50 = 1.44 mg/ml；FRAP IT0.5 = 0.64 mg/ml）。CM 薄膜的抗氧化活性强于 CZM 薄膜。不含抹茶的薄膜样品的 TS 值分别为 13.54 [MPa] 和 22.24 [MPa]。相比之下，它们的断裂伸长率分别为 74.87 [%] 和 41.04 [%]。含有抹茶添加剂的样品显示出最弱的机械性能：CM和CZM。纤维素/抹茶薄膜（CM）的 TS 值和 EAB 值分别为 5.11 [MPa] 和 5.05 [%]。而纤维素/明胶/抹茶薄膜（CZM）的 TS 值和 EAB 值分别为 6.45 [MPa] 和 1.54 [%]。应用高浓度抹茶会导致相分离，从而削弱薄膜的机械性能。本研究中观察到的含抹茶薄膜光学性能的变化是由于抹茶的蓝色，这是干花存在的影响。此外，包装材料的蓝色还具有营销作用，因为它可以使包装产品在商店货架上 "脱颖而出"。

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来源期刊

Food Bioscience Biochemistry, Genetics and Molecular Biology-Biochemistry

CiteScore

6.40

自引率

5.80%

发文量

671

审稿时长

27 days

期刊介绍： Food Bioscience is a peer-reviewed journal that aims to provide a forum for recent developments in the field of bio-related food research. The journal focuses on both fundamental and applied research worldwide, with special attention to ethnic and cultural aspects of food bioresearch.