Linseed Mucilage and Chitosan composite films - 11th International ...
Linseed Mucilage and Chitosan composite films - 11th International ...
Linseed Mucilage and Chitosan composite films - 11th International ...
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[2] Chawla S.P. Kanatt S.R., Rao M.S. & Sharma A. 2010. <strong>Chitosan</strong> <strong>and</strong> Guar Gum Composite Films: Preparation, Physical,<br />
Mechanical <strong>and</strong> Antimicrobial Properties. Journal of Carbohydrate Polymers, 82, 1243-1247.<br />
[3] Tharanathan N. R. & Kittur S. F. 2003. Chitin – The Undisputed Biomolecule of Great Potential. Critical Reviews in<br />
Food Science, 43, 61–83.<br />
[4] Chen M. Yeh H. & Chiang B. 1996. Antimicrobial <strong>and</strong> Physicochemical Properties of Methylcellulose <strong>and</strong> <strong>Chitosan</strong><br />
Films Containing a Preservative. Journal of Food Processing <strong>and</strong> Preservation, 20, 379–390.<br />
[5] Vermeiren L. Devlieghere F. Van Beest M. de Kruijf N. & Debevere J. 1999. Developments in the Active Packaging of<br />
Foods. Trends in Food Science <strong>and</strong> Technology, 10, 77–86.<br />
[6] Park S. Y. Lee B. I. Jung S. T. & Park H. J. 2001. Biopolymer Composite Films Based on k-Carrageenan <strong>and</strong> <strong>Chitosan</strong>.<br />
Materials Research Bulletin, 36, 511–519.<br />
[7] BeMiller J. N. 1993. Quince Seed, Psyllium Seed, Flaxseed <strong>and</strong> Okra gums. In R. S. Whistler & J. N. BeMiller (Eds.),<br />
Industrial gums. Academic Press. New York, USA.<br />
[8] Chen H. H. Xu S. Y. & Wang Z. 2004a. Separation <strong>and</strong> Purification of Acidic Polysaccharides <strong>and</strong> Neutral<br />
Polysaccharides in Flaxseed Gum. Journal of Food <strong>and</strong> Fermentation Industry, 1, 96–100 [in Chinese].<br />
[9] Chen H. H. Xu S. Y. & Wang Z. 2004b. Study of Rheological Properties of Flaxseed Gum. Journal of Wuxi University of<br />
Light Industry, 1, 30–35 [in Chinese].<br />
[10] Han J. H. & Floros J. D. 1997. Casting Antimicrobial Packaging Films <strong>and</strong> Measuring Their Physical Properties <strong>and</strong><br />
Antimicrobial Activity. Journal of Plastic Film & Sheeting, 13, 287–298.<br />
[11] Gontard N. & Guilbert S. 1994. Biopackaging: Technology <strong>and</strong> Properties of Edible <strong>and</strong>/or Biodegradable Material<br />
of Agricultural Origin. In M. Mathlouthi (Ed.), Food packaging <strong>and</strong> preservation. Blackie Academic & Professional. New<br />
York, USA.<br />
[12] Ghorpade V. M. Li H. Gennadios A. & Hanna M. A. 1995. Chemically Modified Soy Protein Films. Transaction of<br />
the ASAE, 38, 1805–1808.<br />
[13] Gennadios A. Weller C.L. & Gooding C.H. 1994. Measurement errors in water vapor permeability of highly<br />
permeable, hydrophilic edible <strong>films</strong>. Journal of Food Engineering, 21, 395-409.<br />
[14] Hagenmaeir R. D. & Shaw P. E. 1990. Moisture permeability of edible <strong>films</strong> made with fatty acids <strong>and</strong><br />
(hydroxypropyl) methyl cellulose. Journal of Agricultural <strong>and</strong> Food Chemistry, 38, 1799–1803.<br />
[15] Diab, T. Biliaderis C. G. Gerasopoulos D. & Sfakiotakis E. 2001. Physicochemical properties <strong>and</strong><br />
application of pullulan edible <strong>films</strong> <strong>and</strong> coatings in fruit preservation. Journal of the Science of Food <strong>and</strong><br />
Agriculture, 81, 988–1000.
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