[1] | Embuscado, M.E. and Huber, K.C., "Edible Films and Coatings for Food Applications", New York, NY, USA: Springer, 9: 169-208. June 2009. |
|
[2] | Kester, J.J. and Fennema, O.R., "Edible Films and Coatings: A Review", Food Technol (USA). 40: 47-59. 1986. |
|
[3] | Belibi, P.C., Daou, T.J., Ndjaka, J.M.B., Nsom, B., Michelin, L. and Durand, B., "Une étude comparative de certaines propriétés des films d'amidon de manioc et de manioc arboricole", Physics Procedia. 55: 220-226. January 2014. |
|
[4] | Arvanitoyannis, I., Kolokuris, I., Nakayama, A., Yamamoto, N. and Aiba, S.I., "Physico-chemical Studies of Chitosan-poly (Vinyl Alcohol) Blends Plasticized with Sorbitol and Sucrose", Carbohydrate Polymers, 34: 9-19, June 1997. |
|
[5] | Arvanitoyannis, I., Nakayama, A. and Aiba, S., "Edible Films Made From Hydroxypropyl Starch and Gelatin and Plasticized by Polyols and Water", Carbohydrate Polymers, 36: 105-119, January 1998. |
|
[6] | Rodríguez, M., Osés, J., Ziani, K. and Maté, J.I., "Combined Effect of Plasticizers and Surfactants on the Physical Properties of Starch Based Edible Films", Food Research International, 39: 840-846, April 2006. |
|
[7] | Acosta, S., Jiménez, A., Chiralt, A., Martinez, A.G. and Chafer, A., "Mechanical, Barrier and Microstructural Properties of Films Based on Cassava Starch Gelatin Blends: Effect of Aging and Lipid Addition", In Inside Food Symposium Leuven Belgium,1-6, 2013. |
|
[8] | Dias, T.P., Grosso, C.R.F., Andreuccetti, C., De Carvalho, R.A., Galicia-García, T. and Martinez-Bustos, F., Effect of the Addition of Soy Lecithin and Yucca chidigera Extract on the Properties of Gelatin and Glycerol Based Biodegradable Films", Polímeros, 23(3): 339-345, May 2013. |
|
[9] | Perazzo, K.K.N.C.L., Conceição, A.C.D.V., Santos, J.C.P.D., Assis, D.D.J., Souza, C.O. and Druzian, J.I., "Properties and Antioxidant Action of Actives Cassava Starch Films Incorporated with Green Tea and Palm Oil Extracts", PloS one, 9(9): 105-199, September 2014. |
|
[10] | Taqi, A., Mutihac, L. and Stamatin, I., "Physical and Barrier Properties of Apple Pectin/Cassava Starch Composite Films Incorporating Laurus nobilis l. Oil and Oleic Acid", Journal of Food Processing and Preservation; 38: 1982-1993, August 2014. |
|
[11] | Nindjin, C., Beyrer, M. and Amani, G.N., "Effects of Sucrose and Vegetable Oil on Properties of Native Cassava (Manihot esculenta Crantz) Starch-based Edible Films", African Journal of Food, Agriculture, Nutrition and Development, 15(2) : 9905-9921, June 2015. |
|
[12] | Rawa, M., "Mise au Point et Caractérisation de Films Comestibles à Base de Polysaccharides et de Matières Grasses", Ecole Nationale d’Agronomie et des Industries alimentaires. Lorraine, France. Thèse. 159 p, March 2006. |
|
[13] | Galus, S. and Kadzińska, J., "Food Applications of Emulsion-based Edible Films and Coatings", Trends in Food Science & Technology, 45: 273-283, July 2015. |
|
[14] | Fabra, M.J., Pérez-Masiá, R., Talens, P. and Chiralt, A., "Influence of the Homogenization Conditions and Lipid Self-association on Properties of Sodium Caseinate Based Films Containing Oleic and Stearic Acids", Food Hydrocolloids, 25: 1112-1121, October 2011. |
|
[15] | McHUGH, T.H., Aujard, J.F. and Krochta, J.M., "Plasticized Whey Protein Edible Films: Water Vapor Permeability Properties", Journal of Food Science, 59 (2): 416-419, March 1994. |
|
[16] | Debeaufort, F. and Voilley, A., "Effect of Surfactants and Drying Rate on Barrier Properties of Emulsified Edible Films", International Journal of Food Science & Technology, 30(2): 183-190, April 1995. |
|
[17] | Fabra, M.J., Pérez-Masiá, R., Talens, P.and Chiralt, A., "Influence of the Homogenization Conditions and Lipid Self-association on Properties of Sodium Caseinate Based Films Containing Oleic and Stearic Acids", Food Hydrocolloids, 25: 1112-1121, July 2011. |
|
[18] | Tanaka, M., Ishizaki, S., Suzuki, T. and Takai, R., "Water Vapor Permeability of Edible Films Prepared from Fish Water Soluble Proteins as Affected by Lipid Type*1", Journal of the Tokyo University of Fisheries, 87: 31-38, August 2001. |
|
[19] | Bourtoom, T. and Chinnan, M.S., "Improvement of Water Barrier Property of Rice Starch-chitosan Composite Film Incorporated with Lipids", Food Science and Technology International, 15(2): 149-158, April 2009. |
|
[20] | Jiménez, A., Fabra, M.J and Chiralt, A., "Effect of Lipid Self-association on The Microstructure and Physical Properties of Hydroxypropyl-methylcellulose Edible Films Containing Fatty Acids", Carbohydrate Polymers, 82: 585-593, October 2010. |
|
[21] | Vargas, M., Perdones, Á., Chiralt, A., Cháfer, M. and González-Martínez, C., "Effect of Homogenization Conditions on Physicochemical Properties of Chitosan-based Film-forming Dispersions and Films", Food Hydrocolloids, 25: 1158-1164, July 2011. |
|
[22] | Ma, W., Tang, C.H., Yin, S.W., Yang, X.Q., Qi, J.R. and Xia, N., "Effect of Homogenization Conditions on Properties of Gelatin–Olive Oil Composite Films", Journal of Food Engineering, 113(1): 136-142, November 2012. |
|
[23] | Bonilla, J., Atarés, L., Vargas, M. and Chiralt, A., "Effect of Essential Oils and Homogenization Conditions on Properties of Chitosan-based Films", Food Hydrocolloids, 26(1): 9-16, January 2012. |
|
[24] | Sherwin, C.P., Smith, D.E. and Fulcher, R.G., "Effect of Fatty Acid Type on Dispersed Phase Particle Size Distributions in Emulsion Edible Films", Journal of Agricultural and Food Chemistry, 46(11): 4534-4538, October 1998. |
|
[25] | Phan, T.D., Debeaufort, F., Voilley, A. and Luu, D., "Influence of Hydrocolloid Nature on the Structure and Functional Properties of Emulsified Edible Films", Food Hydrocolloids, 23(3): 691-699, May 2009. |
|
[26] | Lafargue, D., Lourdin, D. and Doublier, J.L., "Film-forming Properties of a Modified Starch/κ-carrageenan Mixture in Relation to its Rheological Behaviour", Carbohydrate. Polymers, 70: 101-111, April 2007. |
|
[27] | Moraes, D.J.O., Scheibe, A.S., Sereno, A. and Laurindo, J.B., "Scale-up of the Production of Cassava Starch-based Films Using Tape-casting", Journal of Food Engineering, 119(4): 800-808, December 2013. |
|
[28] | Amani, N.G.G., Buléon, A., Kamenan, A. and Colonna, P., "Variability in starch physicochemical and functional properties of yam (Dioscorea sp) cultivated in Ivory Coast", Journal of Agricultural and Food Chemistry, 84(15): 2085-2096, September 2004. |
|
[29] | Adjouman, Y.D., Nindjin, C., Tetchi, F.A., Dalcq, A.C., Amani, N.G. and Sindic, M., "Water Vapor Permeability of Edible Films Based on Improved Cassava (Manihot esculenta Crantz) Native Starches", Journal of Food Processing & Technology, 8(3): 665, March 2017. |
|
[30] | Adjouman, Y.D., Nindjin, C., Konan, B.R., Coulibaly, S., Amani, N.G., Sindic, M. and Tetchi, F.A., "Effect of Glycerol, Peanut oil and Soybean lecithin Contents on the Properties of Biodegradable Film of Improved Cassava Starches from Côte d’Ivoire", International Journal of Agriculture Environment and Biotechnology, 3(4): 1432- 1440, July 2018. |
|
[31] | Versino, F. and García, M.A., "Cassava (Manihot esculenta) Starch Films Reinforced with Natural Fibrous Filler", Industrial Crops and Products, 58: 305-314, April 2014. |
|
[32] | López, O.V., García, M.A. and Zaritzky, N.E., "Film Forming Capacity of Chemically Modified Corn Starches", Carbohydrate. Polymers, 73: 573-581, December 2008. |
|
[33] | ASTM. Vapor Transmission of Material. Annual Book of ASTM, American Society for Testing and Materials, Philadelphia. 1995. |
|
[34] | ASTM D882-02. Standard Test Method for Tensile Properties of Thin Plastic Sheeting. Philadelphia: American Society for Testing and Materials. 2002. |
|
[35] | Bourtoom, T. and Chinnan, M.S., "Preparation and Properties of Rice Starch–Chitosan Blend Biodegradable Film", LWT - Food Science and Technology, 41: 1633-1641, October 2008. |
|
[36] | Pires, J.R.A, de Souza, V.G.L. and Fernando, A.L., "Chitosan/Montmorillonite Bionanocomposites Incorporated with Rosemary and Ginger Essential Oil as Packaging for Fresh Poultry Meat", Food Packaging and Shelf Life, 17: 142-149, September 2018. |
|
[37] | Mali, S., Grossmann, M.V.E., Garcia, M.A., Martino, M.N. and Zaritzky, N.E., "Barrier, Mechanical and Optical Properties of Plasticized Yam Starch Films", Carbohydrate. Polymers, 56: 129-135, March 2004. |
|
[38] | Mali, S., Sakanaka, L.S., Yamashita, F. and Grossmann, M.V.E., "Water Sorption and Mechanical Properties of Cassava Starch Films and Their Relation to Plasticizing Effect", Carbohydrate. Polymers, 60(3): 283-289, May 2005. |
|
[39] | Galus, S. and Lenart, A., "Development and Characterization of Composite Edible Films Based on Sodium Alginate and Pectin", Journal of Food Engineering, 115: 459-465, March 2013. |
|
[40] | Han, J.H. and Krochta, J.M., "Wetting Properties and Water Vapor Permeability of Whey-protein-coated Paper", Transactions of the ASAE (American Society of Agricultural Engineers), 42(5): 4205-1375, July 1999. |
|
[41] | Garcı́a, M.A., Pinotti, A., Martino, M.N., and Zaritzky, N.E., "Characterization of Composite Hydrocolloid Films", Carbohydrate. Polymers, 56: 339-345, April 2004. |
|
[42] | Sánchez-González, L., Vargas, M., González-Martínez. C., Chiralt, A. and Chafer M., "Use of Essential Oils in Bioactive Edible Coatings: A Review", Food Engineering Reviews, 3: 1-16, January 2011. |
|
[43] | Acevedo-Fani, A., Salvia-Trujillo, L., Rojas-Graü, M.A. and Martín-Belloso, O., "Edible Films from Essential-oil-loaded Nanoemulsions: Physicochemical Characterization and Antimicrobial Properties", Food Hydrocolloids, 47: 168-177, May 2015. |
|
[44] | Gul, O., Saricaoglu, F.T., Besir, A., Atalar, I. and Yazici, F., "Effect of Ultrasound Treatment on the Properties of Nano-emulsion Films Obtained from Hazelnut Meal Protein and Clove Essential Oil", Ultrasonics Sonochemistry, 41: 466-474, March 2018. |
|
[45] | Shahbazi, M., Majzoobi, M. and Farahnaky, A., "Physical Modification of Starch by High-pressure Homogenization for Improving Functional Properties of κ-carrageenan/starch Blend Film", Food Hydrocolloids, 85: 204-214, December 2018. |
|
[46] | Otoni, C.G., Avena-Bustillos, R.J., Olsen, C.W., Bilbao-Sáinz, C. and McHugh T.H., "Mechanical and water barrier properties of isolated soy protein composite edible films as affected by carvacrol and cinnamaldehyde micro and nanoemulsions", Food Hydrocolloids, 57: 72-79, June 2016. |
|
[47] | Galus, S. and Kadzińska, J., "Food applications of emulsion-based edible films and coatings", Trends in Food Science & Technology, 45(2): 273-283, October 2015. |
|
[48] | Pérez-Gago, M.B. and Krochta, J.M., "Lipid particle size effect on water vapor permeability and mechanical properties of whey protein/beeswax emulsion films", Journal of Agricultural and Food Chemistry, 49(2): 996-1002. February 2001. |
|
[49] | Fattahi, R. and Seyedain-Ardabili, M., "A comparative study on the effect of homogenization conditions on the properties of the film-forming emulsions and the resultant films", Food chemistry, 352: 129-319. august 2021. |
|
[50] | Otoni, C.G., Pontes, S.F.O., Medeiros, E.A.A. and de Soares, N.F., "Edible Films from Methylcellulose and Nanoemulsions of Clove Bud (Syzygium aromaticum) and Oregano (Origanum vulgare) Essential Oils as Shelf-life Extenders for Sliced Bread", Journal of Agricultural and Food Chemistry, 62(22): 5214–5219, May 2014. |
|