The microencapsulation of essential oils by complex coacervation continues to attract considerable attention due to high payload, increased thermal stability and sustained release of core materials. This review recapitulates the thermal properties of coacervates and essential oil microcapsules prepared by complex coacervation method using protein/polysaccharide and polysaccharide/polysaccharide. The authors discussed the factors affecting coacervation and the thermal properties of coacervates. Besides, this review describes the microencapsulation processes physicochemical properties and release characteristics of essential oils microcapsules based on complex coacervation method. Finally, the review concentrates on the antimicrobial properties and the applications of essential oils microcapsules in food and nutrition. Despite extensive research conducted on the preparation of essential oils microcapsules prepared by complex coacervation, the application of this technique in encapsulating essential oils exposed to high temperatures during processing and storage remains a current area of research. Therefore, the research consolidated in this review describes a high degree of thermal stability of essential oils microcapsules prepared with complex coacervation that is yet understood, which can be readily utilized in the food and pharmaceutical industries.
Keywords: Biopolymers; coacervates; controlled-release; essential oils; heat stability.