Yuting Wu, Yuxin Chen, Boya Lv, Bo Wang, Seojin Choi, Ningyuan Bai, Zhe Liu, Xiao Dong Chen, Yi Cheng
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引用次数: 0
摘要
为了满足个人护理行业对同时保护活性成分和增强产品功能的需求,本研究采用微流体技术制造了基于 EstoGel M 的油凝胶微胶囊,这种微胶囊能够同时包覆亲水性和疏水性活性成分。油凝胶具有凝胶状特性,熔点约为 70 °C,可确保在水环境中对亲水性和疏水性活性物质的高封装效率。封装疏水性活性物质的油凝胶微球是利用微流体技术制备的,具有强大的弹性,可在小于 15 毫牛顿的力的作用下破裂,从而在使用时产生良好的触感。这些微球的结构完整性可在高达 70 °C 的温度范围内保持不变,这表明它们具有热力学稳定性。此外,还利用微流体技术制备了油凝胶微胶囊,并成功证明了它们在包覆亲水性和疏水性活性成分方面的有效性,以及出色的肤感和温度稳定性。以 EstoGel M 为基础的油凝胶微胶囊具有卓越的触感特性,这为创造集高封装效率和多功能特性于一体的创新型个人护理产品提供了一种前景广阔的策略。
Thermoresponsive Phase Change Oleogel Microcapsules for Coencapsulation of Hydrophilic and Hydrophobic Actives
To address the concurrent needs of the personal care industry for simultaneous protection of active ingredients and enhancement of product functionality, this study employs a microfluidic technique to fabricate EstoGel M-based oleogel microcapsules capable of coencapsulating both hydrophilic and hydrophobic actives. The oleogels exhibit gel-like characteristics with a melting point of approximately 70 °C, ensuring high encapsulation efficiency for hydrophilic and hydrophobic actives within aqueous environments. The oleogel microspheres encapsulating hydrophobic actives are prepared using microfluidic technology with robust elasticity, which can be ruptured by a force of less than 15 mN, contributing to a favorable tactile sensation upon application. The structural integrity of these microspheres is preserved within a temperature range up to 70 °C, indicating their thermodynamic stability. In addition, oleogel microcapsules are prepared using microfluidic technology, and their effectiveness in coencapsulating hydrophilic and hydrophobic active ingredients is successfully demonstrated, along with excellent skin feel and temperature stability. The exceptional tactile properties of EstoGel M-based oleogel microcapsules offer a promising strategy for creating innovative personal care products that integrate high encapsulation efficiency with multifunctional attributes.
期刊介绍:
ACS Applied Materials & Interfaces is a leading interdisciplinary journal that brings together chemists, engineers, physicists, and biologists to explore the development and utilization of newly-discovered materials and interfacial processes for specific applications. Our journal has experienced remarkable growth since its establishment in 2009, both in terms of the number of articles published and the impact of the research showcased. We are proud to foster a truly global community, with the majority of published articles originating from outside the United States, reflecting the rapid growth of applied research worldwide.
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