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Fabrication of three-dimensional polymer-brush gradients within elastomeric supports by Cu-mediated surface-initiated ATRP
Albers, R. F., Magrini, T., Romio, M., Leite, E. R., Libanori, R., Studart, A. R., & Benetti, E. M. (2021). Fabrication of three-dimensional polymer-brush gradients within elastomeric supports by Cu-mediated surface-initiated ATRP. ACS Macro Letters, 10(9), 1099-1106. https://doi.org/10.1021/acsmacrolett.1c00446
Dispersity within brushes plays a major role in determining their interfacial properties: the case of oligoxazoline-based graft polymers
Romio, M., Grob, B., Trachsel, L., Mattarei, A., Morgese, G., Ramakrishna, S. N., … Benetti, E. M. (2021). Dispersity within brushes plays a major role in determining their interfacial properties: the case of oligoxazoline-based graft polymers. Journal of the American Chemical Society, 143(45), 19067-19077. https://doi.org/10.1021/jacs.1c08383
Hydrogels generated from cyclic poly(2-Oxazoline)s display unique swelling and mechanical properties
Trachsel, L., Romio, M., Zenobi-Wong, M., & Benetti, E. M. (2021). Hydrogels generated from cyclic poly(2-Oxazoline)s display unique swelling and mechanical properties. Macromolecular Rapid Communications, 42(7), 2000658 (6 pp.). https://doi.org/10.1002/marc.202000658
Topology and molecular architecture of polyelectrolytes determine their pH-responsiveness when assembled on surfaces
Trachsel, L., Ramakrishna, S. N., Romio, M., Spencer, N. D., & Benetti, E. M. (2021). Topology and molecular architecture of polyelectrolytes determine their pH-responsiveness when assembled on surfaces. ACS Macro Letters, 10(1), 90-97. https://doi.org/10.1021/acsmacrolett.0c00750
Mechanism and application of surface-initiated ATRP in the presence of a Zn<sup>0</sup> plate
Faggion Albers, R., Yan, W., Romio, M., Leite, E. R., Spencer, N. D., Matyjaszewski, K., & Benetti, E. M. (2020). Mechanism and application of surface-initiated ATRP in the presence of a Zn0 plate. Polymer Chemistry, 11(44), 7009-7014. https://doi.org/10.1039/d0py01233e
Oxygen tolerant and cytocompatible iron(0)-mediated ATRP enables the controlled growth of polymer brushes from mammalian cell cultures
Layadi, A., Kessel, B., Yan, W., Romio, M., Spencer, N. D., Zenobi-Wong, M., … Benetti, E. M. (2020). Oxygen tolerant and cytocompatible iron(0)-mediated ATRP enables the controlled growth of polymer brushes from mammalian cell cultures. Journal of the American Chemical Society, 142(6), 3158-3164. https://doi.org/10.1021/jacs.9b12974
Insight into the mechanism of cytotoxicity of membrane-permeant psoralenic Kv1.3 channel inhibitors by chemical dissection of a novel member of the family
Peruzzo, R., Mattarei, A., Azzolini, M., Becker-Flegler, K. A., Romio, M., Rigoni, G., … Szabò, I. (2020). Insight into the mechanism of cytotoxicity of membrane-permeant psoralenic Kv1.3 channel inhibitors by chemical dissection of a novel member of the family. Redox Biology, 37, 101705 (16 pp.). https://doi.org/10.1016/j.redox.2020.101705
Topological polymer chemistry enters materials science: expanding the applicability of cyclic polymers
Romio, M., Trachsel, L., Morgese, G., Ramakrishna, S. N., Spencer, N. D., & Benetti, E. M. (2020). Topological polymer chemistry enters materials science: expanding the applicability of cyclic polymers. ACS Macro Letters, 9(7), 1024-1033. https://doi.org/10.1021/acsmacrolett.0c00358
Fabrication of biopassive surfaces using Poly(2-alkyl-2-oxazoline)s: recent progresses and applications
Trachsel, L., Romio, M., Ramakrishna, S. N., & Benetti, E. M. (2020). Fabrication of biopassive surfaces using Poly(2-alkyl-2-oxazoline)s: recent progresses and applications. Advanced Materials Interfaces, 7(19), 2000943 (9 pp.). https://doi.org/10.1002/admi.202000943
Functional nanoassemblies of cyclic polymers show amplified responsiveness and enhanced protein-binding ability
Trachsel, L., Romio, M., Grob, B., Zenobi-Wong, M., Spencer, N. D., Ramakrishna, S. N., & Benetti, E. M. (2020). Functional nanoassemblies of cyclic polymers show amplified responsiveness and enhanced protein-binding ability. ACS Nano, 14(8), 10054-10067. https://doi.org/10.1021/acsnano.0c03239
Bioinert and lubricious surfaces by macromolecular design
Yan, W., Ramakrishna, S. N., Romio, M., & Benetti, E. M. (2019). Bioinert and lubricious surfaces by macromolecular design. Langmuir, 35(42), 13521-13535. https://doi.org/10.1021/acs.langmuir.9b02316