a Department of Food Engineering , UFV , Viçosa , Brazil.
b Process Engineering for Environment and Food Laboratory , ONIRIS , Nantes , France.
J Microencapsul. 2017 Dec;34(8):754-771. doi: 10.1080/02652048.2017.1403495. Epub 2017 Nov 21.
Oils are used in agriculture, nutrition, food and cosmetics; however, these substances are oxidisable and may readily lose their properties. To reduce their degradation or to mask certain undesirable aspects, one strategy consists in encapsulating the oil in inert structures (capsules). The capsules are classified according to the morphology, the number of cores and size, can be produced by several techniques: jet-cutting, vibrating jet, spray-drying, dispersion and milli-microfluidic. Among the polymers used as a membrane in the capsules, alginates are used in oil encapsulation because of their high gelling capacity, biocompatibility and low toxicity. In the presence of calcium ions, the alginate macromolecules crosslink to form a three-dimensional network called hydrogel. The oil encapsulation using alginate as encapsulating material can be carried out using technologies based on the external, internal or inverse gelation mechanisms. These capsules can found applications in areas as cosmetics, textile, foods and veterinary, for example.
油在农业、营养、食品和化妆品中有广泛应用;然而,这些物质容易被氧化,可能会迅速失去其特性。为了减少降解或掩盖某些不理想的方面,可以将油封装在惰性结构(胶囊)中。胶囊根据形态、核数和大小进行分类,可以通过多种技术生产:喷射切割、振动喷射、喷雾干燥、分散和毫微流控。在用作胶囊中膜的聚合物中,由于藻酸盐具有高凝胶能力、生物相容性和低毒性,因此被用于油封装。在钙离子存在下,藻酸盐大分子交联形成三维网络,称为水凝胶。使用藻酸盐作为包埋材料的油包埋可以使用基于外部、内部或反向凝胶化机制的技术进行。这些胶囊可以在化妆品、纺织品、食品和兽医等领域得到应用。