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Laboratory 3. Polycondensation and Thermostable Polymers

Head of laboratory: Dr. Luminița MARIN

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[1] D. Ailincai, M. Bercea, L. M. Tartau and L. Marin, Biocompatible drug delivery systems able to co-deliver antifungal and antiviral agents, Carbohydr. Polym., 298, 14, doi:10.1016/j.carbpol.2022.120071, (2022).

[2] D. Ailincai, I. Rosca, L. Ursu and A. Dascalu, CHITOSAN OLIGOMERS - SYNTHESIS, CHARACTERIZATION AND PROPERTIES, Cell Chem. Technol., 56(7-8), 767-776, doi:10.35812/CelluloseChemTechnol.2022.56.68, (2022).

[3] R. M. Amarandi, A. Ibanescu, E. Carasevici, L. Marin and B. Dragoi, Liposomal-Based Formulations: A Path from Basic Research to Temozolomide Delivery Inside Glioblastoma Tissue, Pharmaceutics, 14(2), 40, doi:10.3390/pharmaceutics14020308, (2022).

[4] B. I. Andreica, X. J. Cheng and L. Marin, Quaternary ammonium salts of chitosan. A critical overview on the synthesis and properties generated by quaternization (vol 139, 110016, 2020), Eur. Polym. J., 164, 1, doi:10.1016/j.eurpolymj.2021.110963, (2022).

[5] A. Anisiei, I. Rosca, A. I. Sandu, et al., Imination of Microporous Chitosan Fibers-A Route to Biomaterials with "On Demand" Antimicrobial Activity and Biodegradation for Wound Dressings, Pharmaceutics, 14(1), 20, doi:10.3390/pharmaceutics14010117, (2022).

[6] S. Cibotaru, D. Ailincai, B. I. Andreica, X. J. Cheng and L. Marin, TEGylated Phenothiazine-Imine-Chitosan Materials as a Promising Framework for Mercury Recovery, Gels, 8(11), 19, doi:10.3390/gels8110692, (2022).

[7] S. Cibotaru, V. Nastasa, A. I. Sandu, et al., Pegylation of phenothiazine-A synthetic route towards potent anticancer drugs, J. Adv. Res., 37, 279-290, doi:10.1016/j.jare.2021.07.003, (2022).

[8] A. M. Craciun, S. Morariu and L. Marin, Self-Healing Chitosan Hydrogels: Preparation and Rheological Characterization, Polymers, 14(13), 14, doi:10.3390/polym14132570, (2022).

[9] O. Dumbrava, D. Popovici, D. Vasincu, et al., Impact of the Liquid Crystal Order of Poly(azomethine-sulfone)s on the Semiconducting Properties, Polymers, 14(7), 14, doi:10.3390/polym14071487, (2022).

[10] M. M. Iftime and S. Morariu, RHEOLOGICAL PROPERTIES OF SALICYL-IMINE-CHITOSAN HYDROGELS: EFFECT OF CROSSLINKING DENSITY, Cell Chem. Technol., 56(7-8), 757-765, doi:10.35812/CelluloseChemTechnol.2022.56.67, (2022).

[11] M. M. Iftime, I. Rosca, A. I. Sandu and L. Marin, Chitosan crosslinking with a vanillin isomer toward self-healing hydrogels with antifungal activity, Int. J. Biol. Macromol., 205, 574-586, doi:10.1016/j.ijbiomac.2022.02.077, (2022).

[12] R. Lungu, M. A. Paun, D. Peptanariu, et al., Biocompatible Chitosan-Based Hydrogels for Bioabsorbable Wound Dressings, Gels, 8(2), 14, doi:10.3390/gels8020107, (2022).

[13] D. Wang, L. Marin and X. J. Cheng, Chitosan-bodipy macromolecular fluorescent probes prepared by click reactions for highly sensitive and selective recognition of 2,4-dinitrophenylhydrazine, New J. Chem., 46(43), 20699-20710, doi:10.1039/d2nj03923k, (2022).

[14] D. Wang, L. Marin and X. J. Cheng, Fluorescent chitosan-BODIPY macromolecular chemosensors for detection and removal of Hg(2+) and Fe(3+) ions, Int. J. Biol. Macromol., 198, 194-203, doi:10.1016/j.ijbiomac.2021.12.075, (2022).

[15] S. Zappia, E. Perju, A. Bejan, et al., Microporous Polymelamine Framework Functionalized with Re(I) Tricarbonyl Complexes for CO2 Absorption and Reduction, Polymers, 14(24), 15, doi:10.3390/polym14245472, (2022).

[16] D. Serbezeanu, T. Vlad-Bubulac, M. D. Onofrei, et al., Phosphorylated Poly(vinyl alcohol) Electrospun Mats for Protective Equipment Applications, Nanomaterials, 12(15), 14, doi:10.3390/nano12152685, (2022).

[17] T. Vlad-Bubulac, C. Hamciuc, C. M. Rîmbu, et al., Fabrication of Poly(vinyl alcohol)/Chitosan Composite Films Strengthened with Titanium Dioxide and Polyphosphonate Additives for Packaging Applications, Gels, 8(8), 16, doi:10.3390/gels8080474, (2022).

[18] L. Lupa, L. Cocheci, A. M. Dobos, et al., Metal Ions Removal from Contaminated Water Using Membranes Functionalized with Ionic Liquids, Water, 14(24), 15, doi:10.3390/w14244105, (2022).

[19] D. Filip, A. M. Dobos, A. Filimon, D. Macocinschi and A. G. Grigoras, Dilute solution properties of some star poly(ether urethane)s-based on erythromycin propionate core, J. Mol. Liq., 350, 13, doi:10.1016/j.molliq.2022.118532, (2022).

[20] A. Filimon, A. M. Dobos, O. Dumbrava, F. Doroftei and L. Lupa, Green Blends Based on Ionic Liquids with Improved Performance for Membrane Technology: Perspectives for Environmental Applications, Int. J. Mol. Sci., 23(14), 19, doi:10.3390/ijms23147961, (2022).

[21] O. Dumbrava, D. Popovici, D. Vasincu, et al., Impact of the Liquid Crystal Order of Poly(azomethine-sulfone)s on the Semiconducting Properties, Polymers, 14(7), 14, doi:10.3390/polym14071487, (2022).

[22] A. A. Enache, D. Serbezeanu, T. Vlad-Bubulac, et al., Tunable Properties via Composition Modulations of Poly(vinyl alcohol)/Xanthan Gum/Oxalic Acid Hydrogels, Materials, 15(7), 15, doi:10.3390/ma15072657, (2022).

[23] C. Hamciuc, G. Lisa, D. Serbezeanu, et al., Tailoring Thermal and Electrical Properties of Jeffamine Segmented Polyetherimide Composite Films Containing BaTiO3 particles, Polymers, 14(21), 19, doi:10.3390/polym14214715, (2022).

[24] C. Hamciuc, T. Vlad-Bubulac, M. Bercea, et al., Electrospun Copoly(ether imide) Nanofibers Doped with Silver- Loaded Zeolite as Materials for Biomedical Applications, ACS Appl. Polym. Mater., 4(8), 6080-6091, doi:10.1021/acsapm.2c00892, (2022).

[25] C. Hamciuc, T. Vlad-Bubulac, D. Serbezeanu, et al., Thermal Properties and Flammability Characteristics of a Series of DGEBA-Based Thermosets Loaded with a Novel Bisphenol Containing DOPO and Phenylphosphonate Units, Materials, 15(21), 16, doi:10.3390/ma15217829, (2022).

[26] C. Hamciuc, T. Vlad-Bubulac, D. Serbezeanu, et al., Effects of Phosphorus and Boron Compounds on Thermal Stability and Flame Retardancy Properties of Epoxy Composites, Polymers, 14(19), 15, doi:10.3390/polym14194005, (2022).

[27] M. Homocianu, A. Airinei, A. M. Ipate and C. Hamciuc, Spectroscopic Recognition of Metal Ions and Non-Linear Optical (NLO) Properties of Some Fluorinated Poly(1,3,4-Oxadiazole-Ether)s, Chemosensors, 10(5), 16, doi:10.3390/chemosensors10050183, (2022).

[28] M. Homocianu, D. Serbezeanu, G. Lisa, M. Brebu and T. Vlad-Bubulac, Optical and Flame-Retardant Properties of a Series of Polyimides Containing Side Chained Bulky Phosphaphenanthrene Units, Int. J. Mol. Sci., 23(21), 13, doi:10.3390/ijms232113174, (2022).

[29] D. Serbezeanu, C. Hamciuc, T. Vlad-Bubulac, et al., Electrospun Nanofibers Based on Polymer Blends with Tunable High-Performance Properties for Innovative Fire-Resistant Materials, Polymers, 14(24), 20, doi:10.3390/polym14245501, (2022).