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W1692365252 abstract "Abstract Proteins are abundant in nature and are highly functional. They can be converted into edible films and coating for food applications. The formation of protein films and coatings require a denaturation step to unfold the protein molecules and to promote intermolecular interactions via the formation of disulfide and hydrogen bonds, as well as hydrophobic interactions. Plasticizers, such as low‐molecular‐weight polyols and organic acids, are often added to the film‐forming formulations to impart flexibility essential for end‐use handling. By and large, edible films are produced by solvent casting. Solution properties (viscosity, surface tension, etc.) must be optimized in order to produce coherent film of consistent material properties. Alternatively, dry processing involves extrusion of proteins at elevated temperature (above glass transition) in the presence of small quantity of water and plasticizer. Material properties of protein films can be modified by incorporating additives, heat curing, and/or irradiation/chemical treatments to achieve optimal mechanical strength and extensibility essential for end‐use handling. Protein films and coatings are strong gas barriers when they are dry but exhibit poor moisture barrier properties due to their inherent hydrophilic nature. Edible films and coatings are versatile carriers for bioactives (e.g. antimicrobials, antioxidants, nutraceuticals, and micronutrients), flavors, colors, and other additives, making them a useful tool in product innovation." @default.
W1692365252 created "2016-06-24" @default.
W1692365252 creator A5031606474 @default.
W1692365252 creator A5055043436 @default.
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W1692365252 date "2020-02-17" @default.
W1692365252 modified "2023-09-26" @default.
W1692365252 title "Edible Films and Coatings from Soybean and Other Protein Sources" @default.
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W1692365252 doi "https://doi.org/10.1002/047167849x.bio084.pub2" @default.
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