The formation of soy protein fibrils-chitin nanowhisker complex coacervates: Relationship to mixed foam stability

The effects of protein fibrillation modifications on foam properties and the foaming and stabilization ability of soy protein fibrils (SPF) and chitin nanowhisker (CNW) complex systems were investigated and evaluated. The results showed that the structure of SPF stretched significantly with the incr...

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Published in:Colloids and surfaces. A, Physicochemical and engineering aspects Physicochemical and engineering aspects, 2022-11, Vol.652, p.129783, Article 129783
Main Authors: Li, Xiao-yin, Li, Guo-yan, Zeng, Qing-zhu, Su, Dong-xiao, He, Shan, Yang, Xin-quan, Nag, Anindya, Li, Jian, Yuan, Yang
Format: Article
Language:English
Subjects:
Chitin nanowhisker
Complex coacervates
Fibrotic modification
Foaming properties
Soy protein isolate
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Summary:The effects of protein fibrillation modifications on foam properties and the foaming and stabilization ability of soy protein fibrils (SPF) and chitin nanowhisker (CNW) complex systems were investigated and evaluated. The results showed that the structure of SPF stretched significantly with the increase of heating time, probably due to the unfolding and rearrangement of protein structure. The foaming ability and stability of SPF were significantly higher than those of natural protein. The SPF and CNW coacervates effectively increased the foam strength, probably due to the interaction between the "worm-like" SPF structure and the short crystal structure of CNW. In addition, the samples containing salt had higher foaming ability, stability and viscosity compared to those without salt, resulting in a significant improvement in foaming properties. This study provided a new idea for studying the functional properties of modified protein-modified polysaccharides complex coacervates. [Display omitted] •Soy protein fibrils and chitin nanowhiker can form coacervates through electrostatic interactions.•The coacervates made up with soy protein fibrils and chitin nanowhiker effectively improved the performance of the foam.•The presence of salt can further improve foam properties and viscosity.
ISSN:0927-7757
DOI:10.1016/j.colsurfa.2022.129783