Pickering emulsions are an emulsion stabilized with solid particles instead of using chemical emulsifier. It has excellent storage stability compared to traditional emulsion. Recently, studies for stabilizing emulsions using food-grade particles such as protein and starch have been actively carried out. However, application of the emulsions to actual foods is restricted to ice cream, foam, and whipping cream because the size of the emulsions is too large to maintain the dispersed state. In this study, Pickering emulsion with nanoscale particle size and colloidal stability was developed using starch nanocrystals of 20-50 nm level. After acid hydrolysis, starch nanocrystals were separated by centrifugation, and microparticles were treated with ultra-sonication until the temperature at which starch nanocrystals were gelatinized to further separate starch nanocrystals, which were incompletely hydrolyzed during acid hydrolysis, the yield was improved. To increase the hydrophobicity of hydrophilic starch nanocrystals, OSA-modified starch nanocrystals were prepared by esterification of starch nanocrystals with octenyl succinic anhydride (OSA). Gellan gum and polydimethyl siloxane (PDMS) were used to confirm the dual wettability of OSA-modified starch nanocrystals to both aqueous phase and oil phase. Ultra-sonic treatment of OSA-modified starch nanocrystals-stabilized Pickering emulsions reduced the emulsion particle size and increased the emulsion efficiency of OSA-modified starch nanocrystals. Then, Pickering emulsions which has excellent colloidal stability and storage stability was developed by varying the concentration of OSA-modified starch nanocrystals. The Pickering emulsions developed in this study can be used as a basis for research on the development of food and drug carriers by adding colloidal stability to existing Pickering emulsions.
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Improving productivity of starch nanocrystals (SNC) using sonication and characteristics of SNC-stabilized Pickering emulsions
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