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Safaei, M., Ajji, A., Kessler, S., & Saffar, A. (2026). Controlled sustained release of chlorine dioxide gas from extrusion-cast polymeric films to extend shelf life of strawberries. Applied Food Research, 6(1), 101732. External link
Sadeghi, A., Saffar, A., & Ajji, A. (2025). Innovative home-compostable modified starch coatings with enhanced heat sealability for paper packaging. Applied Food Research, 5(2), 101543 (12 pages). External link
Sadeghi, A., Abavisani, F., Saffar, A., & Ajji, A. (2025). Improving paper-based packaging with home compostable modified starch coatings: a focus on heat seal optimization. Journal of Environmental Management, 386, 125639 (11 pages). Available
Kanani Aghkand, Z., Saffar, A., & Ajji, A. (2021). Effect of Back-layer on seal performance of multilayer polyethylene-based sealant films. Journal of Applied Polymer Science, 138(31), 12 pages. External link
Castejon, P., Habibi, K., Saffar, A., Ajji, A., Martinez, A. B., & Arencon, D. (2018). Polypropylene-based porous membranes: Influence of polymer composition, extrusion draw ratio and uniaxial strain. Polymers, 10(1). Available
Jalali Dil, E., Kim, S. C., Saffar, A., Ajji, A., Zare, R. N., Sattayapiwat, A., Esguerra, V., & Bowen, R. A. R. (2018). Surface characterization and free thyroid hormones response of chemically modified poly(ethylene terephthalate) blood collection tubes. Applied Surface Science, 442, 602-612. External link
Saffar, A., Jalali Dil, E., Carreau, P., Ajji, A., & Kamal, M. R. (2016). Phase behavior of binary blends of PP/PP‐g‐AA: limitations of the conventional characterization techniques. Polymer International, 65(5), 508-515. External link
Wang, S., Saffar, A., Ajji, A., Wu, H., & Guo, S.-Y. (2015). Fabrication of microporous membranes from melt extruded polypropylene precursor films via stretching: Effect of annealing. Chinese Journal of Polymer Science, 33(7), 1028-1037. External link
Saffar, A., Tabatabaei, S. H., Carreau, P., Ajji, A., & Kamal, M. R. (2015). Rheology of PP/PP-g-MA and PP/PP-g-AA Blends and Incidence on Orientation and Crystalline Structure of Their Cast Films. Industrial & Engineering Chemistry Research, 54(43), 10787-10795. External link
Saffar, A., Carreau, P., Ajji, A., & Kamal, M. R. (2014). Development of polypropylene microporous hydrophilic membranes by blending with PP-g-MA and PP-g-AA. Journal of Membrane Science, 462, 50-61. External link
Saffar, A., Carreau, P., Kamal, M. R., & Ajji, A. (2014). Hydrophilic modification of polypropylene microporous membranes by grafting TiO2 nanoparticles with acrylic acid groups on the surface. Polymer, 55(23), 6069-6075. External link
Saffar, A., Ajji, A., Carreau, P., & Kamal, M. R. (2014). The impact of new crystalline lamellae formation during annealing on the properties of polypropylene based films and membranes. Polymer, 55(14), 3156-3167. External link
Saffar, A., Carreau, P., Ajji, A., & Kamal, M. R. (2014). Influence of Stretching on the Performance of Polypropylene-Based Microporous Membranes. Industrial & Engineering Chemistry Research, 53(36), 14014-14021. External link
Saffar, A., Ajji, A., Carreau, P., & Katnal, M. R. (2014, April). Development of polypropylene microporous hydrophilic membranes by blending with acrylic acid grafted polypropylene [Paper]. 72nd Annual Technical Conference of the Society of Plastics Engineers (ANTEC 2014), Las Vegas, NV, United states. External link
Bourg, V., Saffar, A., & Ajji, A. (2016, July). Influence of a dispersed elastomeric phase on the orientation of hot-drawn Poly(ethylene Terephthalate) [Abstract]. 32nd Annual Meeting of Polymer Processing Society (PPS-32), Lyon, France (1 page). External link
Saffar, A. (2014). Development of Polypropylene Microporous Hydrophilic Membranes Through Cast Extrusion and Stretching [Ph.D. thesis, École Polytechnique de Montréal]. Available
Ajji, A., Jalali Dil, E., Saffar, A., & Kanani Aghkand, Z. (2023). Heat Sealing in Packaging. External link
Dil, E. J., Ajji, A., & Saffar, A. (2023). Polyester Materials in Biomedical Applications. In Greener, J., & Cakmak, M. (eds.), Polyester Films: Materials, Processes and Applications (pp. 306-342). External link
