Advances in emulsion stability: A review on mechanisms, role of emulsifiers, and applications in food
Tianlong Xiao, Xiaojie Ma, Hui Hu, Fei Xiang, Xinyu Zhang, Yichen Zheng, Hao Dong, Benu Adhikari, Qiang Wang, Aimin Shi
Abstract
Emulsions, as thermodynamically unstable systems with multiscale and multiphase structures, naturally destabilize over time. Their stability plays a vital role in industries like food, cosmetics, and chemical materials. For emulsion-based foods, stability is essential to preserve their nutritional value, texture, appearance, and flavor. Enhancing emulsion stability during transportation, storage, and use not only extends shelf life but also boosts market reliability and consumer trust. This review explores emulsion destabilization mechanisms, evaluates the influencing factors, and discusses strategies to assess and enhance stability. The text outlines key emulsion stabilization methods, focusing on recent progress in emulsifier development, including Pickering particles. This review highlights the application of proteins, polysaccharides, polyphenols, and their complexes as emulsifiers in stabilizing food emulsions. It also explores their potential to enhance product performance while addressing consumer demand and sustainability goals. • Explored the mechanism of emulsion destabilization. • Evaluated the factors affecting destabilization. • Discusses the main methods of stabilizing emulsions. • Outlining the application of proteins, polysaccharides, polyphenols and their complex-type emulsifiers. • Potential for stabilizing emulsions to improve the performance of good products.