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Corn Oil-Water Separation: Interfacial Behavior of Extended Surfactant and Glutelin.

Jinpeng GaoDaniel RossiXuhong ChenFrancis ChoiJoseph BorstJeanne HankettPadma Prabodh VaranasiZhan Chen
Published in: Langmuir : the ACS journal of surfaces and colloids (2023)
The purification and collection of various products from oil/water mixtures are routine procedures. However, the presence of emulsifiers that can displace other surface active components in the mixtures can significantly influence the efficiency of such procedures. Previously, we investigated interfacial mechanisms of zein protein-induced emulsification and the opposing surfactant-induced demulsification related to corn oil refinement. In this paper, we further investigated a different class of protein, glutelin, inside corn and proved that glutelin acts as an oil/water emulsifier in an acidic water environment. Furthermore, an extended surfactant's protein disordering and removal ability was tested and compared with a conventional surfactant. An extended surfactant contains a poly(propylene oxide) or poly(propylene oxide)-poly(ethylene oxide) chain inserted between the hydrophilic head and the hydrophobic tail. In this study, a nonlinear optical spectroscopic technique, sum frequency generation (SFG) vibration spectroscopy, was used to study the behavior of glutelin and extended as well as regular surfactants at the corn oil/water or aqueous solution interface. In most cases, the conventional surfactant shows better protein disordering or removal ability than the extended surfactant. However, with the addition of heat and salt to an extended surfactant solution, the experiment resulted in a substantial increase in the extended surfactant's protein disorder or removal ability.
Keyphrases
  • ionic liquid
  • protein protein
  • fatty acid
  • aqueous solution
  • binding protein
  • high glucose
  • molecular dynamics simulations
  • small molecule
  • atomic force microscopy
  • single molecule