采用响应面法通过超声乳化制备 D-柠檬烯水基纳米乳的工艺优化及稳定性研究。

Process optimization and stability of D-limonene-in-water nanoemulsions prepared by ultrasonic emulsification using response surface methodology.

机构信息

Institute of Food Science and Technology, National Taiwan University, 1 Sec. 4 Roosevelt Road, Taipei 10617, Taiwan, ROC.

出版信息

Ultrason Sonochem. 2012 Jan;19(1):192-7. doi: 10.1016/j.ultsonch.2011.05.017. Epub 2011 May 27.

DOI:10.1016/j.ultsonch.2011.05.017

PMID:21680223

Abstract

D-limonene in water nanoemulsion was prepared by ultrasonic emulsification using mixed surfactants of sorbitane trioleate and polyoxyethylene (20) oleyl ether. Investigation using response surface methodology revealed that 10% d-limonene nanoemulsions formed at S0 ratio (D-limonene concentration to mixed surfactant concentration) 0.6-0.7 and applied power 18 W for 120 s had droplet size below 100 nm. The zeta potential of the nanoemulsion was approximately -20 mV at original pH 6.4, closed to zero around pH 4.0, and around -30 mV at pH 12.0. The main destabilization mechanism of the systems is Ostwald ripening. The ripening rate at 25 °C (0.39 m3 s(-1)×10(29)) was lower than that at 4 °C (1.44 m3 s(-1)×10(29)), which was in agreement with the Lifshitz-Slezov-Wagner (LSW) theory. Despite of Ostwald ripening, the droplet size of d-limonene nanoemulsion remained stable after 8 weeks of storage.

摘要

水包 D-柠檬烯纳米乳液通过超声乳化作用，使用山梨糖醇三油酸酯和聚氧乙烯（20）油醚的混合表面活性剂来制备。通过响应面法研究表明，在 S0 比（D-柠檬烯浓度与混合表面活性剂浓度之比）为 0.6-0.7，施加功率为 18 W 持续 120 s 的条件下，可形成 10%的 D-柠檬烯纳米乳液，其液滴尺寸小于 100nm。纳米乳液在原始 pH 值 6.4 时的 Zeta 电位约为-20mV，在 pH 值 4.0 左右接近零，在 pH 值 12.0 时约为-30mV。体系的主要失稳机制是奥斯特瓦尔德熟化。在 25°C（0.39 m3 s(-1)×10(29)）下的熟化速率低于在 4°C（1.44 m3 s(-1)×10(29)）下的熟化速率，这与 Lifshitz-Slezov-Wagner（LSW）理论一致。尽管存在奥斯特瓦尔德熟化，但 D-柠檬烯纳米乳液的粒径在 8 周的储存期后仍保持稳定。

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采用响应面法通过超声乳化制备 D-柠檬烯水基纳米乳的工艺优化及稳定性研究。

Process optimization and stability of D-limonene-in-water nanoemulsions prepared by ultrasonic emulsification using response surface methodology.

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