Physical Properties, Microstructure, Intermolecular Forces, and Oxidation Stability of Soybean Oil Oleogels Structured by Different Cellulose Ethers

乳状液 化学工程 分子间力 傅里叶变换红外光谱 微观结构 纤维素 黄原胶 材料科学 流变学 化学 多糖 粘度 甲基纤维素 有机化学 分子 复合材料 工程类
作者
Zong Meng,Keyu Qi,Ying Guo,Yong Wang,Yuanfa Liu
出处
期刊:European Journal of Lipid Science and Technology [Wiley]
卷期号:120 (6) 被引量:61
标识
DOI:10.1002/ejlt.201700287
摘要

Edible oleogels are prepared by different kinds of hydroxypropyl methyl cellulose (HPMC) and methylcellulose (MC) through emulsion‐templated method. Physical properties of the oleogels such as rheological behavior and oil binding capacity are evaluated. Polarizing light microscopy (PLM) as well as scanning electron microscopy (SEM) are used to gain information on the microstructure of the samples. Fourier transform infrared spectroscopy (FTIR), and X‐ray diffraction (XRD) are used to evaluate intermolecular forces between the polysaccharides in the oleogels. It is found that oil‐water interface layers of the emulsions are strengthened by polysaccharides (HPMC and xanthan gum [XG] or MC and XG), and it prohibits oil droplets from coalescing during drying. The formation of semi‐crystalline structure of oleogels to trap the oil is attributed to intramolecular/intermolecular hydrogen bonding between the polysaccharides. The higher viscosity grade results in better structure with respect to emulsions, vacuum dried emulsions, and oleogels compared to that of lower viscosity grade for HPMC or MC. The mechanical strengths of vacuum dried emulsions and oleogels stabilized by HPMC are harder compared to that of MC. The study will provide guidance for the production of functional fat products with zero trans and low saturated fatty acids. Practical Applications : HPMC and MC, two types of dietary fiber, are two kinds of the most commonly used cellulose ethers which are food‐approved additives. The oleogels prepared by HPMC and MC using an emulsion‐templated method can be used to produce functional fat products with zero trans and low saturated fatty acids, which will be beneficial to human health. The properties of oleogels structured by different HPMC and MC with the different degree of polymerization (DP) and substitution (DS) are different. The physical properties, microstructure, and intermolecular forces for oleogels are evaluated in order to lay the basis for the application of the oleogels. A schematic representation of the structure of oleogels stabilized by hydroxypropyl methyl cellulose (HPMC) and xanthan gum (XG).
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