Zein self-assembled nanoscale structures for microencapsulation.Nanotechnology is a broad interdisciplinary area of research that has the potential to affect virtually all disciplines. The use of nanotechnology in the context of food must address such issues as toxicity, regulatory restrictions, cost and scalability. Research is ongoing on a number of fronts, including characterizing and understanding nanoscale structures and phenomena pertinent to food systems, the synthesis and fabrication of nanoscale structures for food applications, nanosensors for detecting pathogens and chemicals, engineering packaging materials with embedded or grafted nanoscale structures and materials, the impact on nanoscale systems during food processing, and the effects of incorporated nanoscale systems on food functionality and safety. Flavor encapsulation is always of interest to the food industry. Zein zein the principal protein in maize. Has low nutritive value, being deficient in lysine and tryptophan. is an excellent film former and has been used for flavor encapsulation. Preliminary research has shown that zein forms self-assembled nanoscale structures that might be used as carriers to encapsulate flavors and bioactive compounds. Scientists at the University of Illinois University of Illinois may refer to:
Gold-coated glass slides were modified by depositing on them a self-assembled monolayer (SAM) of either carboxylic acid carboxylic acid: see carboxyl group. carboxylic acid Any organic compound with the general chemical formula −COOH in which a carbon (C) atom is bonded to an oxygen (O) atom by a double bond to make a carbonyl group (−C=O; see terminated thiol thiol: see mercaptan. (COOH COOH Carboxylic Acid (functional group) (CH2)10SH) or methyl-terminated alkanethiol (CH3(CH2)7SH). Zein was dissolved in 75% 2-propanol. The investigators adjusted the pH to 3.5 with chloroacetic acid. Zein solutions were made to flow over the SAM surfaces for adsorption adsorption, adhesion of the molecules of liquids, gases, and dissolved substances to the surfaces of solids, as opposed to absorption, in which the molecules actually enter the absorbing medium (see adhesion and cohesion). purposes. Then they were rinsed with distilled water or 75% 2-propanol. The researchers characterized the surface topography of zein deposits using atomic force microscopy. They observed hollow tubules for zein adsorbed on carboxyl-ended surfaces when these were rinsed with distilled water. The tubules were 35 nm high and 200 nm in diameter. The scientists found that surface roughness increased significantly (from 2 nm to 7 nm) after zein nanotubules were formed. No tubules were found at other experimental conditions. Zein adsorbed to methyl-ended SAMs formed large grains, about 200 nm in diameter. The surfaces were highly uniform and had lower roughness value (~1.9 nm). Surfaces rinsed with 75% 2-propanol appeared to have few features. The zein formed nanoscale hollow tubules when adsorbed to carboxyl carboxyl /car·box·yl/ (kahr-bok´sil) the monovalent radical —COOH, occurring in those organic acids termed carboxylic acids. car·box·yl n. ended surfaces. The tubes had well-defined structures and could be used in microencapsulation microencapsulation a manufacturing process in which an active agent is contained in microcapsules, suspended in a liquid. As the vehicle dries, the capsules dry out and the contents become active. processes. Further information. Graciela Padua, Department of Food Science and Human Nutrition, 382L Agricultural Engineering Sciences Building, University of Illinois, 905 S.Goodwin Ave., Urbana, IL 61801; phone: 217-333-9336; fax: 217-333-9329; email: gwpadua@express.cites.uiuc.edu. |
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