Oleogel‐based emulsions: Concepts, structuring agents, and applications in food

This review discusses the application of oleogel technology in emulsified systems. In these systems of mimetic fats, water‐in‐oil or oil‐in‐water emulsions can be obtained, but, here, we cover emulsions with an oil continuous phase in detail. Depending on the percentage of water added to the oleogel...

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Veröffentlicht in:	Journal of food science 2021-07, Vol.86 (7), p.2785-2801
Hauptverfasser:	Silva, Thais J., Barrera‐Arellano, Daniel, Ribeiro, Ana Paula B.
Format:	Artikel
Sprache:	eng
Schlagworte:	Cosmetics Cosmetics industry Emulsification emulsion Emulsions fatty acids Food Food industry Food processing Interfacial properties Lipids Meat Meat products Moisture content nutrition Oil Oils & fats oleogel Pickering Processed foods Rheological properties Water content
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creator	Silva, Thais J. Barrera‐Arellano, Daniel Ribeiro, Ana Paula B.
description	This review discusses the application of oleogel technology in emulsified systems. In these systems of mimetic fats, water‐in‐oil or oil‐in‐water emulsions can be obtained, but, here, we cover emulsions with an oil continuous phase in detail. Depending on the percentage of water added to the oleogels, systems with different textures and rheological properties can be developed. These properties are affected by the characteristics and concentration of the added components and emulsion preparation methods. In addition, some gelators exhibit interfacial properties, resulting in more stable emulsions than those of conventional emulsions. Oleogel‐based emulsion are differentiated by continuous and dispersed phases and the structuring/emulsification components. Crucially, these emulsions could be applied by the food industry for preparing, for example, meat products and margarines, as well as by the cosmetics industry. We present the different processes of emulsion elaboration, the main gelators used, the influence of the water content on the structuring of water‐in‐oleogel emulsions, and the structuring mechanisms (Pickering, network, and combined Pickering and network stabilization). Finally, we highlight the applications of these systems as alternatives for reducing processed food lipid content and saturated fat levels.
doi_str_mv	10.1111/1750-3841.15788
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subjects	Cosmetics Cosmetics industry Emulsification emulsion Emulsions fatty acids Food Food industry Food processing Interfacial properties Lipids Meat Meat products Moisture content nutrition Oil Oils & fats oleogel Pickering Processed foods Rheological properties Water content
title	Oleogel‐based emulsions: Concepts, structuring agents, and applications in food
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