由大豆皮多糖稳定的高内相比乳液的储存稳定性和界面流变学分析。

Storage stability and interfacial rheology analysis of high-internal-phase emulsions stabilized by soy hull polysaccharide.

机构信息

College of Food Science and Technology, Bohai University, Jinzhou 121013, China.

出版信息

Food Chem. 2023 Aug 30;418:135956. doi: 10.1016/j.foodchem.2023.135956. Epub 2023 Mar 15.

DOI:10.1016/j.foodchem.2023.135956

Abstract

High-internal-phase emulsions (HIPEs) are more promising candidates for development to replace hydrogenated fatty acids, yet the current HIPEs are limited for stabilizers require very high surface activity. This study showed that HIPEs could be prepared with 1.0-2.2 wt% soy hull polysaccharide (SHP) and the related stability indicators of HIPEs were analyzed. The plasticity, stress resistance, stability of the HIPEs were positively correlated with the SHP content. The interfacial adsorption experiments showed that SHP had the good ability to reduce interfacial tension and formed an elastic interfacial layer. Dilatational rheological results showed the interfacial film reached jammed saturation at about 1.8 wt% of SHP concentration, and the zeta potential results were consistent. This study demonstrated that SHP was an efficient stabilizer of HIPEs, which was useful both for the preparation of HIPEs and for developing uses for SHP.

摘要

高内相比乳液（HIPEs）是更有前途的候选物，可以替代氢化脂肪酸，但目前的 HIPEs 受到稳定剂的限制，需要非常高的表面活性。本研究表明，HIPEs 可以用 1.0-2.2wt%的大豆皮多糖（SHP）制备，并分析了相关的 HIPEs 稳定性指标。HIPEs 的塑性、耐应力性和稳定性与 SHP 含量呈正相关。界面吸附实验表明，SHP 具有降低界面张力和形成弹性界面层的良好能力。扩张流变学结果表明，当 SHP 浓度约为 1.8wt%时，界面膜达到了堵塞饱和，与zeta 电位结果一致。本研究表明，SHP 是 HIPEs 的有效稳定剂，这对 HIPEs 的制备和 SHP 的开发利用都很有用。

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由大豆皮多糖稳定的高内相比乳液的储存稳定性和界面流变学分析。

Storage stability and interfacial rheology analysis of high-internal-phase emulsions stabilized by soy hull polysaccharide.

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