聚合物微胶囊中香料的包封与增强保留

Encapsulation and Enhanced Retention of Fragrance in Polymer Microcapsules.

作者信息

Lee Hyomin, Choi Chang-Hyung, Abbaspourrad Alireza, Wesner Chris, Caggioni Marco, Zhu Taotao, Weitz David A

机构信息

School of Engineering and Applied Sciences and Department of Physics, Harvard University , Cambridge, Massachusetts 02138, United States.

Department of Food Science, Cornell University , Ithaca, New York 14853, United States.

出版信息

ACS Appl Mater Interfaces. 2016 Feb 17;8(6):4007-13. doi: 10.1021/acsami.5b11351. Epub 2016 Feb 4.

DOI:10.1021/acsami.5b11351

PMID:26799189

Abstract

Fragrances are amphiphilic and highly volatile, all of which makes them a challenging cargo to efficiently encapsulate and retain in microcapsules using traditional approaches. We address these limitations by introducing a new strategy that combines bulk and microfluidic emulsification: a stable fragrance-in-water (F/W) emulsion that is primarily prepared from bulk emulsification is incorporated within a polymer microcapsule via microfluidic emulsification. On the basis of the in-depth study of physicochemical properties of the microcapsules on fragrance leakage, we demonstrate that enhanced retention of fragrance can be achieved by using a polar polymeric shell and forming a hydrogel network within the microcapsule. We further extend the utility of these microcapsules by demonstrating the enhanced retention of encapsulated fragrance in powder state.

摘要

香料具有两亲性且挥发性高，所有这些特性使得它们成为一种具有挑战性的物质，难以使用传统方法有效地封装并保留在微胶囊中。我们通过引入一种结合本体乳化和微流控乳化的新策略来解决这些限制：一种主要由本体乳化制备的稳定的水包香料（F/W）乳液，通过微流控乳化被纳入聚合物微胶囊中。基于对微胶囊物理化学性质对香料泄漏影响的深入研究，我们证明通过使用极性聚合物壳并在微胶囊内形成水凝胶网络，可以实现香料的增强保留。我们通过展示粉末状态下封装香料的增强保留，进一步扩展了这些微胶囊的用途。

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聚合物微胶囊中香料的包封与增强保留

Encapsulation and Enhanced Retention of Fragrance in Polymer Microcapsules.

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