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Food Science and Biotechnology
→ Food Science and Biotechnology 2020 ; 29(3): 387-392
Emulsion stabilization mechanism of combination of esterified maltodextrin and Tween 80 in oil-in-water emulsions
Sunsanee Udomrati1 • Nopparat Cheetangdee2 • Shoichi Gohtani3 • Vipa Surojanametakul1 • Supakchon Klongdee4
1 Department of Food Chemistry and Physics, Institute of Food Research and Product Development, Kasetsart University, Chatuchak, Bangkok 10900, Thailand 2 Department of Agro-Industry, Faculty of Product Development, Kasetsart University, Chatuchak, Bangkok 10900, Thailand 3 Department of Applied Biological Science, Faculty of Agriculture, Kagawa University, Miki, Kagawa 761-0795, Japan 4 Department of Food Processing and Preservation, Institute of Food Research and Product Development, Kasetsart University, Chatuchak, Bangkok 10900, Thailand
ABSTRACT
Esterified maltodextrins (EMs) were prepared using enzyme-catalyzed reaction of maltodextrin (DE of 16 and 9) and palmitic acid. The emulsion stabilization mechanism was investigated of a combination of Tween 80 and EM in oil-in-water emulsion to determine interfacial tension, 𝛇-potential, non-adsorbed Tween 80 in centrifuged-serum of emulsion, and fluoresced microstructure. The interfacial tension and non-adsorbed Tween 80 content of combination of Tween 80 and EM-stabilized oil-inwater emulsions were closed to those of sole Tween 80-stabilized emulsion. The 𝛇-potential of sole Tween 80-stabilzed emulsion had a small positive charge but 𝛇-potential changed to small negative charge as EM was added into Tween 80-stabilzed emulsion. Fluorescence microstructure confirmed that EM was adsorbed on oil droplet surface, stabilized by Tween 80. The mechanism of emulsion stabilization may conclude that Tween 80 was mainly adsorbed at oil surface and EM may interact with Tween 80 to form a double stabilization layer without competitive replacement.
KEYWORD
Amphiphilic oligosaccharide · Emulsion stabilization mechanism · Esterification · Fatty acid · Maltodextrin · Tween 80
Food Science and Biotechnology 2020 ; 29(3): 387-392
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