Stable O/W emulsions and oleogels with amphiphilic konjac glucomannan network: preparation, characterization, and application

生物高聚物 化学工程 触变性 材料科学 增稠剂 接触角 两亲性 葡甘露聚糖 流变学 脂肪替代品 琥珀酸酐 聚合物 化学 高分子化学 食品科学 复合材料 共聚物 高分子科学 增稠 工程类
作者
Nitong Bu,Liying Huang,Guoyu Cao,Jie Pang,Ruojun Mu
出处
期刊:Journal of the Science of Food and Agriculture [Wiley]
卷期号:102 (14): 6555-6565 被引量:34
标识
DOI:10.1002/jsfa.12021
摘要

BACKGROUND: The stabilization of oil-in-water (O/W) emulsions has long been explored. Assembly of polymer networks is an effective method for stabilizing O/W emulsions. Konjac glucomannan (KGM) is a plant polysaccharide and the network of KGM gel is a good candidate for stabilizing O/W emulsions based on its high viscosity and thickening properties. However, natural KGM has strong hydrophilicity and is not able to offer interfacial activity. Octenyl succinic anhydride (OSA) is a hydrophobic molecule, which is widely used as thickener and stabilizer in food emulsions. In this work, the amphiphilic biopolymer (OSA-KGM) was fabricated by modifying the KGM with OSA. Furthermore, OSA-KGM biopolymer was used to prepare O/W emulsions, which were then freeze-dried and used to prepare oleogels as fat substitute for bakery products. RESULTS: within 1 h. The emulsification of OSA-KGM remarkably improved the stability of emulsions without phase separation during storage for 31 days. Oleogels with OSA-KGM showed good thixotropic and structure recovery properties (approximately 100%) and low oil loss (from 69.5% to 50.4%). Cakes made from oleogels had a softer texture than cakes made from peanut oil and margarine. CONCLUSION: Amphiphilic biopolymer OSA-KGM shows advanced interfacial activity and hydrophobicity. This paper provides an insight into preparing stable O/W emulsions with a new biopolymer and oleogels potentially applied as fat substitute in bakery products. © 2022 Society of Chemical Industry.
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