Investigation of the Effects of Rosemary Extract on Barrier and Colorimetric Properties of Mungbean Starch Films
الموضوعات :H. Safari Maznabi 1 , A. Reza MohammadiNafchi 2
1 - MSc Student, Food Science and Technology Division, Faculty of Agriculture, Damghan Branch, Islamic
Azad University, Damghan, Iran
2 - Biopolymer Research Group, Food Science and Technology Division, Faculty of Agriculture, Damghan
Branch, Islamic Azad University, Damghan, Iran
الکلمات المفتاحية: Colorimetery, starch film mungbean, Rosemary Extract, barrier properties,
ملخص المقالة :
Barrier properties are one of the most important factors in the edible film. In this study, edible mungbean films were prepared containing (0%, 15%, 30%, 45%) concentrations of rosemary aqueous extract. Then the effect of rosemary was investigated on colorimetric and barrier properties (water vapor permeability, oxygen permeability). Rosemary extract increased the absorption of color in the visible region, which in turn led to increase of the parameters a (index color tends toward green) and b (index color tends towards yellow). The results showed that increasing concentrations of rosemary extract have a significant effect( p <0.05) to reduce the amount of oxygen and water vapor permeability. Â Also turbidity of mungbean starch was increased with increasing concentrations of rosemary in the film. Improving barrier properties and the colorimetric properties were showed by rosemary extract compounds that these materials can use as the safety of food and pharmaceutical packaging industry.
- Cagri A., Ustunol Z., Ryser E.T.,
- Antimicrobial edible films and coatings,
- Journal of Food Protection, 67, 2004. pp.
- âââ848
- Brandenburg A.H., Weller C. L., Testin R.
- F.,1993. Edible Films and Coatings from
- Soy Protein. Journal of Food Science.
- ;58:1086-9.
- RamÃÂrez C., Gallegos I., Ihl M., Bifani
- V.,2012. Study of contact angle, wettability
- and water vapor permeability in
- carboxymethylcellulose (CMC) based film
- with murta leaves (Ugni molinae Turcz)
- extract. Journal of Food Engineering.
- ;109:424-9.
- Mohammadinafch A., Cheng L.H., Karim
- A.A., 2011. Effects of plasticizers on
- thermal properties and heat sealability of
- sago starch films, Food Hydrocolloid., 25
- (2011) 56-60.
- McHugh T.H., Avena-Bustillos R., Krochta
- J., 1993. Hydrophilic Edible Films:
- Modified Procedure for Water Vapor
- Permeability and Explanation of Thickness
- Effects, J. Food Sci., 58 (1993) 899-903.
- ASTM, Standard Test Methods for Water
- Vapor Transmission of Materials
- E96/E96M-05, in: Annual Book of ASTM
- Standards, Philadelphia, PA, 2005.
- Park S-i, Zhao Y.,2004. Incorporation of a
- High Concentration of Mineral or Vitamin
- into Chitosan-Based Films. Journal of
- Agricultural and Food Chemistry.
- ;52:1933-9.
- Hernandez R. J., 1994. Effect of water vapor
- on the transport properties of oxygen
- through polyamide packaging materials.
- Journal of Food Engineering. 1994;22:495-
- Kanatt S.R., Rao M.S., Chawla S. P.,
- Sharma A., 2012. Active chitosanâââpolyvinyl
- alcohol films with natural extracts. Food
- Hydrocolloids. 2012;29:290-7.
- Sothornvit R., Krochta J., 2000. Oxygen
- permeability and mechanical properties of
- films from hydrolyzed whey protein. journal
- of Agricultural and Food
- Chemistry,48,3913-3916
- Siripatrawan U., Harte B. R., 2010. Physical
- properties and antioxidant activity of an
- active film from chitosan incorporated with
- green tea extract. Food Hydrocolloids.
- ;24:770-5