PSI - Issue 68

Krastena Nikolova et al. / Procedia Structural Integrity 68 (2025) 845–853 K. Nikolova et al. / Structural Integrity Procedia 00 (2025) 000–000

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Galus, S., Lenart, A., 2013. Development and characterization of composite edible films based on sodium alginate and pectin. Journal of Food Engineering 115, 459–465. Guillen, M.D. and Cabo, N. 2000. Some of the most significant changes in the Fourier transform infrared spectra of edible oils under oxidative conditions. Journal of the Science of Food and Agriculture 80, 2028–2036. Islam, A., Yasin, T. 2012. Controlled delivery of drug from pH sensitive chitosan/poly (vinyl alcohol) blend. Carbohydrate Polymers 88, 1055– 1060. Jafari, R., Zandi, M., & Ganjloo, A. 2023. Characterization of alginate-gelatin edible film containing anise ( Pimpinella anisum L. ) essential oil. Journal of Polymers and the Environment, 31(4), 1568-1583. Kong, I., Degraeve, P., & Pui, L. P. 2022. Polysaccharide-based edible films incorporated with essential oil nanoemulsions: Physico-chemical, mechanical properties and its application in food preservation—A review. Foods 11(4), 555 -560. Kurita, O., Fujiwara, T., Yamazaki, E., 2008. Characterization of the pectin extracted from citrus peel in the presence of citric acid. Carbohydrate Polymers 74, 725–730. Mahcene, Z., Khelil, A., Hasni, S., Akman, P. K., Bozkurt, F., Birech, K., ... & Tornuk, F. 2020. Development and characterization of sodium alginate based active edible films incorporated with essential oils of some medicinal plants. International Journal of Biological Macromolecules, 145, 124-132. Mishra, R.K., Majeed, A.B.A., Banthia, A.K., 2011. Development and characterization of pectin/gelatin hydrogel membranes for wound dressing. International Journal of Plastics Technology 15, 82–95. Moghimi, R., Aliahmadi, A., Rafati, H., 2017. Antibacterial hydroxypropyl methyl cellulose edible films containing nanoemulsions of Thymus daenensis essential oil for food packaging. Carbohydr. Polym. 175, 241–248. Myong Kim, K.; Hwa Son, J.; Kim, S., 2006. Properties of Chitosan Films as a Function of pH and Solvent Type. Journal of Food Science 71, 1– 6. Nandiyanto, A. B. D., Oktiani, R., & Ragadhita, R., 2019. How to read and interpret FTIR spectroscope of organic material. Indonesian Journal of Science and Technology 4(1), 97-118. Nisar, T., Wang, Z. C., Yang, X., Tian, Y., Iqbal, M., & Guo, Y., 2018. Characterization of citrus pectin films integrated with clove bud essential oil: Physical, thermal, barrier, antioxidant and antibacte ial properties. International Journal of Biological Macromolecules 106, 670-680. Oliveira, T.Í. S., Zea-Redondo, L., Moates, G. K., Wellner, N., Cross, K., Waldron, K. W., et al., 2016. Pomegranate peel pectin films as affected by montmorillonite. Food Chemistry 198, 107 Paidari, S., Zamindar, N., Tahergorabi, R., Kargar, M., Ezzati, S., Shirani, N., & Musavi, S. H., 2021. Edible coating and films as promising packaging: a mini review. Journal of Food Measurement and Characterization 15(5), 4205-4214. Panahirad, S., Dadpour, M., Peighambardoust, S. H., Soltanzadeh, M., Gullón, B., Alirezalu, K., & Lorenzo, J. M., 2021. Applications of carboxymethyl cellulose-and pectin-based active edible coatings in preservation of fruits and vegetables: A review. Trends in Food Science & Technology 110, 663-673. Parreidt, T.S., Schott, M.; Schmid, M., Müller, K. 2018. Effect of presence and concentration of plasticizers, vegetable oils, and surfactants on the properties of sodium-alginate-based edible coatings. International Journal of Molecular Science 19, 2–21. Pawlak, A.; Mucha, M., 2003. Thermogravimetric and FTIR studies of chitosan blends. Thermochimica. Acta 396, 153–166. Rambabu, K., Bharath, G., Banat, F., Show, P. L., & Cocoletzi, H. H. 2019. Mango leaf extract incorporated chitosan antioxidant film for active food packaging. International journal of biological macromolecules, 126, 1234-1243. Ramírez, 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, 424–429. Rezvanian, M., Mohd Amin, M.C.I., Shiow-Fern, N., 2016. Development and physicochemical characterization of alginate composite film loaded with simvastatin as a potential wound dressing. Carbohydrate Polymers 137, 295–304. Sánchez-González, L., González-Martínez, C., Chiralt, A., & Cháfer, M., 2010. Physical and antimicrobial properties of chitosan–tea tree essential oil composite films. Journal of Food Engineering 98(4), 443-452. Sanchez-Gonzalez, L., Vargas, M., González-Martínez, C., Chiralt, A., & Cháfer, M., 2009. Characterization of edible films based on hydroxypropylmethylcellulose and tea tree essential oil. Food Hydrocolloids 23(8), 2102-2109. Shahbazi, Y. , 2018. Characterization of nanocomposite films based on chitosan and carboxymethylcellulose containing Ziziphora clinopodioides essential oil and methanolic Ficus carica extract. Journal of Food Processing and Preservation 42, e13444. Shivakumara, L. R., Demappa, T., & Singh, V., 2017. Mechanical and barrier properties of hydroxy propyl methyl cellulose edible polymer films with plasticizer combinations. Journal of Food Processing and Preservation 41(4), 34-40. Singh, R.S., Saini, G.K., Kennedy, J.F., 2008. Pullulan: Microbial sources, production and applications. Carbohydrate Polymer 73, 515–531. Souza, V.C., Monte, M.L., Pinto, L.A., 2011. Preparation of biopolymer film from chitosan modified with lipid fraction. International Journal of Food Science and Technology 46, 1856–1862. Stoica, P., Chifiriuc, M. C., Râpă, M., Bleotu, C., Lungu, L., Vlad, G., ... & Lazăr, V., 2015. Fabrication, characterization and bioevaluation of novel antimicrobial composites based on polycaprolactone, chitosan and essential oils. Biotechnol. Lett 20, 10521-10535. Sutharsan, J., Boyer, C. A., & Zhao, J., 2022. Physicochemical properties of chitosan edible films incorporated with different classes of flavonoids. Carbohydrate Polymer Technologies and Applications, 4, 100232. Talón, E., Trifkovic, K. T., Nedovic, V. A., Bugarski, B. M., Vargas, M., Chiralt, A., & González-Martínez, C., 2017. Antioxidant edible films based on chitosan and starch containing polyphenols from thyme extracts. Carbohydrate polymers 157, 1153-1161. Van Rooyen, B., De Wit, M., Osthoff, G., Van Niekerk, J., & Hugo, A. 2023. Effect of pH on the Mechanical Properties of Single-Biopolymer Mucilage (Opuntia ficus-indica), Pectin and Alginate Films: Development and Mechanical Characterisation. Polymers, 15(24), 4640.