A Novel Pickering High Internal Phase Emulsion Gels Fabricated by Starch Nanocrystals and Bovine Serum Albumin Complexes

Starch Pub Date : 2024-08-22 DOI:10.1002/star.202300236
Ziwen Chen, Hang Liu, Chaoxi Zeng, Qingming Li, Huiping Xia, Zhirenyong Zhang
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Abstract

In this study, novel high internal phase emulsions (HIPEs) (φoil = 0.8) are successfully stabilized using 0.5% w/v starch nanocrystals (SNCs) and 0.05% w/v bull serum albumin (BSA) complex. For this purpose, the SNCs are made hydrophobic through modifications with different concentrations of BSA (0–0.5%) before being used for synthesizing stable HIPEs. The dispersion solutions show that composite particles are better at stabilizing emulsions when the BSA concentration is at least 0.05% w/v. Similarly, the inner gel texture in HIPEs can be easily formed using SNCs‐BSA complexes at mere concentration of 0.5% w/v and 0.05% w/v, respectively. The stability of emulsions increases with increasing BSA concentration. Besides, mixing the composite particles to yield HIPEs can also be applied in more complicated outer environments due to its excellent gel properties over a wider range of pH value. These show that a novel and stable Pickering high internal phase emulsion gel can be potentially formed by adjusting proportion of BSA coated in SNCs. The food‐grade and environmental‐friendly SNCs‐BSA composite particles are ideal for sustainable development around the world, and therefore, this study can provide insights into their applications for food, pharmaceutical, cosmetic, 3D printing, and other fields.
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由淀粉纳米晶体和牛血清白蛋白复合物制成的新型皮克林高内相乳液凝胶
本研究利用 0.5% w/v 淀粉纳米晶体(SNCs)和 0.05% w/v 牛血清白蛋白(BSA)复合物成功稳定了新型高内相乳液(HIPEs)(φ oil = 0.8)。为此,在合成稳定的 HIPEs 之前,先用不同浓度的 BSA(0-0.5%)对 SNCs 进行改性,使其具有疏水性。分散溶液显示,当 BSA 浓度至少为 0.05% w/v 时,复合颗粒能更好地稳定乳液。同样,SNCs-BSA 复合物的浓度分别仅为 0.5% w/v 和 0.05% w/v 时,HIPE 中的内凝胶质地也很容易形成。乳液的稳定性随着 BSA 浓度的增加而提高。此外,混合复合颗粒生成的 HIPE 还可用于更复杂的外部环境,因为它在更宽的 pH 值范围内具有优异的凝胶特性。这些结果表明,通过调整涂覆在 SNC 中的 BSA 的比例,有可能形成一种新型、稳定的 Pickering 高内相乳液凝胶。食品级环保型 SNCs-BSA 复合粒子是全球可持续发展的理想选择,因此本研究可为其在食品、制药、化妆品、3D 打印等领域的应用提供启示。
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