Comparative Study on the Emulsification of Octenyl Succinic Anhydride Modified Sweet Potato Starch: As Macromolecular and Particulate Stabilizers

Starch Pub Date : 2024-04-06 DOI:10.1002/star.202400027
Jianyang Chen, Wei Zhu, Qing Chen, Xiaoyan Song
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Abstract

Sweet potato is one of the essential starch materials for food and feed world widely. However, its application is limited by the low viscosity and poor stability of native starches. Herein, sweet potato starch is modified by octenyl succinic anhydride (OSA) in the aqueous system. The optimization for esterification is studied using response surface methodology. The characteristics of OSA‐modified sweet potato starch are investigated, and its emulsifying properties as macromolecular and particulate stabilizers in the oil‐in‐water systems are compared. The optimal process conditions for OSA modification are: reaction time 4.0 h, temperature 38.8 °C, pH of the reaction system 8.2, starch concentration 32.2%, OSA amount 3.0%. The degree of substitution is 0.0185, and reaction efficiency is 79.7% under the optimum conditions. The new peaks at 1725 and 1573 cm−1 are observed by Fourier transform infrared spectroscopy. Compared with native starch, OSA‐modified sweet potato starch exhibits higher viscosities, improved paste clarity, and decreased retrogradation. The confocal laser scanning microscope results show that the gelatinized starch macromolecule and ungelatinized starch particles can arrange at the water–oil interface. The OSA‐modified sweet potato starch is both an effective macromolecular emulsifier and a particulate stabilizer, effectively stabilizing oil‐in‐water emulsions.

Abstract Image

辛烯基丁二酸酐改性甘薯淀粉乳化性比较研究:作为大分子和微粒稳定剂
甘薯是世界上广泛用于食品和饲料的重要淀粉材料之一。然而,由于原生淀粉粘度低、稳定性差,其应用受到限制。在此,甘薯淀粉在水体系中被辛烯基琥珀酸酐(OSA)改性。采用响应面方法对酯化的优化进行了研究。研究了 OSA 改性甘薯淀粉的特性,并比较了其在水包油体系中作为大分子和微粒稳定剂的乳化性能。OSA 改性的最佳工艺条件为:反应时间 4.0 h,温度 38.8 ℃,反应体系 pH 值 8.2,淀粉浓度 32.2%,OSA 用量 3.0%。在最佳条件下,取代度为 0.0185,反应效率为 79.7%。傅立叶变换红外光谱仪在 1725 和 1573 cm-1 处观察到了新的峰值。与原生淀粉相比,OSA 改性甘薯淀粉具有更高的粘度、更好的糊状透明度和更低的逆变性。共焦激光扫描显微镜结果表明,糊化的淀粉大分子和未糊化的淀粉颗粒可以在水油界面上排列。OSA 改性甘薯淀粉既是一种有效的大分子乳化剂,又是一种颗粒稳定剂,可有效稳定水包油型乳剂。
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