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中国精品科技期刊2020
陈乐奕,韩子轩,杨兆甜,等. 基于单双脂肪酸甘油酯的高蛋白鲜核桃乳液稳定机制J. 食品工业科技,2026,47(17):1−11. doi: 10.13386/j.issn1002-0306.2025110035.
引用本文: 陈乐奕,韩子轩,杨兆甜,等. 基于单双脂肪酸甘油酯的高蛋白鲜核桃乳液稳定机制J. 食品工业科技,2026,47(17):1−11. doi: 10.13386/j.issn1002-0306.2025110035.
CHEN Leyi, HAN Zixuan, YANG Zhaotian, et al. Stabilization Mechanism of a High-protein Fresh Walnut Emulsion: The Role of Mono- and DiglyceridesJ. Science and Technology of Food Industry, 2026, 47(17): 1−11. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2025110035.
Citation: CHEN Leyi, HAN Zixuan, YANG Zhaotian, et al. Stabilization Mechanism of a High-protein Fresh Walnut Emulsion: The Role of Mono- and DiglyceridesJ. Science and Technology of Food Industry, 2026, 47(17): 1−11. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2025110035.

基于单双脂肪酸甘油酯的高蛋白鲜核桃乳液稳定机制

Stabilization Mechanism of a High-protein Fresh Walnut Emulsion: The Role of Mono- and Diglycerides

  • 摘要: 为改善植物蛋白乳液因蛋白质含量低而导致的营养密度不足问题,本研究以鲜核桃为原料,构建了高蛋白鲜核桃乳液(FWE),系统研究了单双脂肪酸甘油酯(MG/DG)对乳液稳定性与结构特性的影响。从流变学特性、界面张力以及微观结构等多维度分析,发现MG/DG能够在油-水界面通过氢键与疏水作用形成致密界面膜,显著提升FWE稳定性。当添加量为0.5%时,乳液粒径最小、界面张力最低,流变特性显示其网络结构强度与稳定性最佳;过量添加(0.6%)则会因过量MG/DG分子聚集,与界面竞争吸附,导致界面膜完整性下降。本研究从界面与流变学角度阐明了MG/DG对高蛋白植物乳基料的稳定机制,为鲜核桃乳液基料的开发提供了理论依据。

     

    Abstract: To overcome the insufficient nutritional density of plant-based protein emulsions owing to their low protein content, this study utilized fresh walnuts as raw material to develop a high-protein fresh walnut emulsion (FWE). The effects of monoglycerides and diglycerides (MG/DG) on emulsion stability and structural properties were systematically investigated. Multidimensional analyses, including rheological properties, interfacial tension, and microstructural characterization revealed that MG/DG formed a dense interfacial film at the oil-water interface through hydrogen bonding and hydrophobic interactions, thereby significantly enhancing FWE stability. After adding 0.5% MG/DG, the emulsion exhibited the smallest particle size and lowest interfacial tension, while rheological data indicated optimal network structure strength and stability. However, excessive MG/DG addition (0.6%) induced over-aggregation of MG/DG molecules, which competed for interfacial adsorption and consequently compromised the integrity of the interfacial film. This study elucidates the stabilization mechanism of MG/DG in high-protein plant-based milk bases from interfacial and rheological perspectives, providing a theoretical basis for developing FWE bases.

     

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