Enhanced properties of non-starch polysaccharide and protein hydrocolloids through plasma treatment: A review
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Date
2023-09-30
Open Access Location
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Publisher
Elsevier B V
Rights
(c) 2023 The Author/s
CC BY-NC-ND 4.0
CC BY-NC-ND 4.0
Abstract
Hydrocolloids are important ingredients in food formulations and their modification can lead to novel ingredients with unique functionalities beyond their nutritional value. Cold plasma is a promising technology for the modification of food biopolymers due to its non-toxic and eco-friendly nature. This review discusses the recent published studies on the effects of cold plasma treatment on non-starch hydrocolloids and their derivatives. It covers the common phenomena that occur during plasma treatment, including ionization, etching effect, surface modification, and ashing effect, and how they contribute to various changes in food biopolymers. The effects of plasma treatment on important properties such as color, crystallinity, chemical structure, rheological behavior, and thermal properties of non-starch hydrocolloids and their derivatives are also discussed. In addition, this review highlights the potential of cold plasma treatment to enhance the functionality of food biopolymers and improve the quality of food products. The mechanisms underlying the effects of plasma treatment on food biopolymers, which can be useful for future research in this area, are also discussed. Overall, this review paper presents a comprehensive overview of the current knowledge in the field of cold plasma treatment of non-starch hydrocolloids and their derivatives and highlights the areas that require further investigation.
Description
Keywords
Chemical changes, Cold plasma, Food formulations, Hydrocolloids, Proteins, Structural changes, Plasma Gases, Polysaccharides, Colloids, Biopolymers, Food
Citation
Sahraeian S, Rashidinejad A, Niakousari M. (2023). Enhanced properties of non-starch polysaccharide and protein hydrocolloids through plasma treatment: A review.. Int J Biol Macromol. 249. (pp. 126098-).