Stability and antioxidant effect of rapeseed extract in oil-in-water emulsion |
Zhang, Hua
(Department of Food Science and Technology, Yanbian University)
Shin, Jung-Ah (Department of Food Science and Technology, Chungnam National University) Hong, Soon Taek (Department of Food Science and Technology, Chungnam National University) Lee, Ki-Teak (Department of Food Science and Technology, Chungnam National University) |
1 | Fattori M, Bulley NR, Meisen A. 1987. Fatty acid and phosphorous contents of canola seed extracts obtained with supercritical carbon dioxide. Journal of Agricultural and Food Chemistry 35:739-743. DOI |
2 | Hong ST. 2008 Competitive displacement of methylcellulose from oil-water interface by various emulsifiers. Journal of the Korean Society of Food Science and Nutrition 37:1271-1277. [in Korean] DOI |
3 | Jafari SM, He Y, Bhandari B. 2007. Production of sub-micron emulsions by ultrasound and microfluidization techniques. Journal of Food Engineering 82:478-488. DOI |
4 | Krygier, K., Sosulski, F. Hogge, L. 1992. Free, esterified and insoluble phenolic acids; Composition of phenolic flour and hulls. Journal of Agricultural and Food Chemistry 30:334-336. |
5 | Kim JW, Jeong YS, Lee ES, Gil NY, Kim SS, Kim HH, Kim TY, Lee YH, Jang YS, Lee KT, Hong ST. 2013. Emulsifying properties of Surface-Active Substances from Defatted Rapeseed Cake by Supercritical Carbon Dioxide Extraction. Journal of Korean Oil Chemists' Society 30:635-348. [in Korean] DOI |
6 | Korea Food and Drug Administration (KFDA). 2009. Food Standards Codex. Korean Foods Industry Association, Seoul, Korea. [in Korean] |
7 | Lima AS, Alegre RM. 2009. Evaluation of emulsifier stability of biosurfactant produced by saccharomyces lipolytica CCT-0913. Brazilian Archives of Biology and Technology 52:285-290. DOI |
8 | Lee HJ, Lee ES, Hong ST. 2011. Extraction of surface-active substances from defatted rice bran by supercritical carbon dioxide. Food Engineering Progress 15:175-181. [in Korean] |
9 | McClements DJ. 2004. Food Emulsions: Principles, Practice and Techniques. 2nd ed. CRC press, Boca Raton, FL, USA. |
10 | Mei L, McClements DJ, Decker EA. 1999. Lipid oxidation in emulsions as affected by charge status of antioxidants and emulsion droplets. Journal of Agricultural and Food Chemistry 47:2267-2273. DOI |
11 | McDonald RE, Hultin HO. 1987. Some characteristics of the enzymatic lipid-peroxidation system in the microsomal fraction of flounder skeletal-muscle. Journal of Food Science 52:15-21. DOI |
12 | Walstra P. 1993. Principles of emulsion formation. Chemical Engineering Science 48:333-349. DOI |
13 | Eldin K. 2006. Effect of fatty acids and tocopherols on the oxidative stability of vegetable oils. European Journal of Lipid Science and Technology 108:1051-1061. DOI |
14 | Alamed J, Chaiyasit W, McClements DJ, Decker EA. 2009. Relationships between free radical scavenging and antioxidant activity in foods. Journal of Agricultural and Food Chemistry 57:2969-2976. DOI |
15 | Di Mattia CD, Sacchetti G, Mastrocola D, Pittia P. 2009. Effect of phenolic antioxidants on the dispersion state and chemical stability of olive oil O/W emulsions. Food Research International 42:1163-1170. DOI |
16 | Dickinson E. 1992. An introduction to Food Colloids. Oxford University Press Oxford. UK. |