提高素食小吃店的档次:注入扁豆蛋白和石榴皮的可食用涂层

IF 2.6 Q2 FOOD SCIENCE & TECHNOLOGY ACS food science & technology Pub Date : 2024-09-16 DOI:10.1021/acsfoodscitech.4c00451
Hande Atik, Menşure Elvan, Şebnem Harsa
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引用次数: 0

摘要

本研究旨在为零食棒涂上一层由石榴皮和扁豆蛋白制成的可食用薄膜。涂有可食用薄膜的零食棒分别在 25 °C、35% 相对湿度(正常条件)和 35 °C、70% 相对湿度(气候条件)下储存。含有无花果干和草莓干的零食棒采用浸渍法涂覆。对小吃棒的理化特性、微生物安全性和感官特性进行了检测。薄膜厚度为 0.06 毫米,膨胀度为 4.53%,拉伸强度为 7.60 兆帕。石榴皮和扁豆蛋白的组合形成了一个连续的薄膜网络。涂层增加了棒状食品的酚和蛋白质含量,也降低了其水活性。不过,在气候条件下,巧克力棒的颜色出现了差异。在整个储存过程中,可食用薄膜涂层保持了零食棒的营养价值和质量。
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Enhancing a Vegan Snack Bar: Edible Coating Infused with Lentil Protein and Pomegranate Peel
This study aimed to coat a snack bar with an edible film made from pomegranate peel and lentil protein. The bars with edible film coating were stored at 25 °C and 35% relative humidity (normal conditions) and at 35 °C and 70% relative humidity (climate conditions). Snack bars containing dried figs and strawberries were coated using the dipping method. The physicochemical profile, microbial safety, and sensory properties of the bars were examined. The film thickness was 0.06 mm, the degree of swelling was 4.53%, and the tensile strength was 7.60 MPa. The combination of the pomegranate peel and lentil protein formed a continuous film network. The coating resulted in an increase in the phenolic and protein contents of the bars and also lowered their water activity. However, color differences were observed in the bars under the climate conditions. The edible film coating maintained the nutritional value and quality of the snack bars throughout storage.
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