OSA-linear dextrin enhances the compactness of pea protein isolate nanoparticles: Increase of high internal phase emulsions stability

The pea protein isolate nanoparticles/octenyl succinic anhydride linear dextrin (PPINs/OSA-LD) composite particles were fabricated by heating at acidic condition. Heating treatment not only made OSA-LD dissolve, but also promoted the hydrophobic interactions between PPINs and OSA-LD. With the increase of OSA-LD content, the average diameter of composite particles decreased due to the avoidance of hydrophobic aggregation between PPINs during heating, and the composite particles became more compact and regular. The high internal phase emulsions (HIPEs) stabilized by composite particles exhibited smaller droplet size, higher viscosity and modulus attributing to the formation of denser interfacial layer. The results of low field nuclear magnetic resonance proved that the HIPEs stabilized by composite particles showed more uniform distribution of water and oil. This work provided a facile method to fabricate composite particles, which had excellent capacity to stabilize the HIPEs.

Automated summary

In this study, the pea protein isolate nanoparticles/octenyl succinic anhydride linear dextrin composite particles were fabricated by heating treatment under acidic condition. Increasing the content of octenyl succinic anhydride linear dextrin resulted in smaller, more compact and regular composite particles. The high internal phase emulsions (HIPEs) stabilized by these composite particles exhibited improved properties such as smaller droplet size, higher viscosity, and more uniform distribution of water and oil.