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Palladium-based metallic glass with high thrombogenic resistance for blood-contacting medical devices
Cihova, M., Müller, E., Chandorkar, Y., Thorwarth, K., Fortunato, G., Maniura-Weber, K., … Rottmar, M. (2022). Palladium-based metallic glass with high thrombogenic resistance for blood-contacting medical devices. Advanced Functional Materials, 32(4), 2108256 (14 pp.). https://doi.org/10.1002/adfm.202108256
Novel electrospun chitosan/PEO membranes for more predictive nanoparticle transport studies at biological barriers
Furer, L. A., Díaz Abad, Á., Manser, P., Hannig, Y., Schuerle, S., Fortunato, G., & Buerki-Thurnherr, T. (2022). Novel electrospun chitosan/PEO membranes for more predictive nanoparticle transport studies at biological barriers. Nanoscale, 14(33), 12136-12152. https://doi.org/10.1039/d2nr01742c
Improving needleless electrospinning throughput by tailoring polyurethane solution properties with polysiloxane additives
Iranshahi, K., Schoeller, J., Luisier, N., Chung, M., Hashemizadeh, S., Fortunato, G., … Rossi, R. M. (2022). Improving needleless electrospinning throughput by tailoring polyurethane solution properties with polysiloxane additives. ACS Applied Polymer Materials, 4(3), 2205-2215. https://doi.org/10.1021/acsapm.2c00263
A low-fouling, self-assembled, graft co-polymer and covalent surface coating for controlled immobilization of biologically active moieties
Mertgen, A. S., Guex, A. G., Tosatti, S., Fortunato, G., Rossi, R. M., Rottmar, M., … Zürcher, S. (2022). A low-fouling, self-assembled, graft co-polymer and covalent surface coating for controlled immobilization of biologically active moieties. Applied Surface Science, 584, 152525 (12 pp.). https://doi.org/10.1016/j.apsusc.2022.152525
Emulsion electrospinning of sodium alginate/poly(ε-caprolactone) core/shell nanofibers for biomedical applications
Norouzi, M. R., Ghasemi-Mobarakeh, L., Itel, F., Schoeller, J., Fashandi, H., Borzi, A., … Rossi, R. M. (2022). Emulsion electrospinning of sodium alginate/poly(ε-caprolactone) core/shell nanofibers for biomedical applications. Nanoscale Advances, 4(13), 2929-2941. https://doi.org/10.1039/D2NA00201A
pH-responsive electrospun nanofibers and their applications
Schoeller, J., Itel, F., Wuertz-Kozak, K., Fortunato, G., & Rossi, R. M. (2022). pH-responsive electrospun nanofibers and their applications. Polymer Reviews, 62(2), 351-399. https://doi.org/10.1080/15583724.2021.1939372
Reversible and broad-range oxygen sensing based on purely organic long-lived photoemitters
Armagan, E., Wei, K., Fortunato, G., Amstad, E., & Rossi, R. M. (2021). Reversible and broad-range oxygen sensing based on purely organic long-lived photoemitters. ACS Applied Polymer Materials, 3(5), 2480-2488. https://doi.org/10.1021/acsapm.1c00064
Controlling pH by electronic ion pumps to fight fibrosis
Guex, A. G., Poxson, D. J., Simon, D. T., Berggren, M., Fortunato, G., Rossi, R. M., … Rottmar, M. (2021). Controlling pH by electronic ion pumps to fight fibrosis. Applied Materials Today, 22, 100936 (11 pp.). https://doi.org/10.1016/j.apmt.2021.100936
Effect of radiant heat exposure on structure and mechanical properties of thermal protective fabrics
Maurya, A. K., Mandal, S., Wheeldon, D. E., Schoeller, J., Schmid, M., Annaheim, S., … Rossi, R. M. (2021). Effect of radiant heat exposure on structure and mechanical properties of thermal protective fabrics. Polymer, 222, 123634 (11 pp.). https://doi.org/10.1016/j.polymer.2021.123634
Tailoring the multiscale architecture of electrospun membranes to promote 3D cellular infiltration
Morel, A., Guex, A. G., Itel, F., Domaschke, S., Ehret, A. E., Ferguson, S. J., … Rossi, R. M. (2021). Tailoring the multiscale architecture of electrospun membranes to promote 3D cellular infiltration. Materials Science and Engineering C: Biomimetic Materials, Sensors and Systems, 130, 112427 (12 pp.). https://doi.org/10.1016/j.msec.2021.112427
pH-responsive chitosan/alginate polyelectrolyte complexes on electrospun PLGA nanofibers for controlled drug release
Schoeller, J., Itel, F., Wuertz-Kozak, K., Gaiser, S., Luisier, N., Hegemann, D., … Rossi, R. M. (2021). pH-responsive chitosan/alginate polyelectrolyte complexes on electrospun PLGA nanofibers for controlled drug release. Nanomaterials, 11(7), 1850 (16 pp.). https://doi.org/10.3390/nano11071850
Reversible oxygen sensing based on multi-emission fluorescence quenching
Armagan, E., Thiyagarajan, S., Wei, K., Gursoy, A., Fortunato, G., Amstad, E., … Toncelli, C. (2020). Reversible oxygen sensing based on multi-emission fluorescence quenching. Sensors, 20(2), 477 (13 pp.). https://doi.org/10.3390/s20020477
Nanofiber membranes as biomimetic and mechanically stable surface coatings
Brunelli, M., Alther, S., Rossi, R. M., Ferguson, S. J., Rottmar, M., & Fortunato, G. (2020). Nanofiber membranes as biomimetic and mechanically stable surface coatings. Materials Science and Engineering C: Biomimetic Materials, Sensors and Systems, 108, 110417 (12 pp.). https://doi.org/10.1016/j.msec.2019.110417
Predicting the macroscopic response of electrospun membranes based on microstructure and single fibre properties
Domaschke, S., Morel, A., Kaufmann, R., Hofmann, J., Rossi, R. M., Mazza, E., … Ehret, A. E. (2020). Predicting the macroscopic response of electrospun membranes based on microstructure and single fibre properties. Journal of the Mechanical Behavior of Biomedical Materials, 104, 103634 (14 pp.). https://doi.org/10.1016/j.jmbbm.2020.103634
2D and 3D electrospinning technologies for the fabrication of nanofibrous scaffolds for skin tissue engineering: a review
Keirouz, A., Chung, M., Kwon, J., Fortunato, G., & Radacsi, N. (2020). 2D and 3D electrospinning technologies for the fabrication of nanofibrous scaffolds for skin tissue engineering: a review. Wiley Interdisciplinary Reviews: Nanomedicine and Nanobiotechnology, 12(4), E1626 (32 pp.). https://doi.org/10.1002/wnan.1626
High-throughput production of silk fibroin-based electrospun fibers as biomaterial for skin tissue engineering applications
Keirouz, A., Zakharova, M., Kwon, J., Robert, C., Koutsos, V., Callanan, A., … Radacsi, N. (2020). High-throughput production of silk fibroin-based electrospun fibers as biomaterial for skin tissue engineering applications. Materials Science and Engineering C: Biomimetic Materials, Sensors and Systems, 112, 110939 (11 pp.). https://doi.org/10.1016/j.msec.2020.110939
Nylon-6/chitosan core/shell antimicrobial nanofibers for the prevention of mesh-associated surgical site infection
Keirouz, A., Radacsi, N., Ren, Q., Dommann, A., Beldi, G., Maniura-Weber, K., … Fortunato, G. (2020). Nylon-6/chitosan core/shell antimicrobial nanofibers for the prevention of mesh-associated surgical site infection. Journal of Nanobiotechnology, 18, 51 (17 pp.). https://doi.org/10.1186/s12951-020-00602-9
Grafting of calcium chelating functionalities onto PLA monofilament fiber surfaces
Mulky, E., Fortunato, G., Hegemann, D., Sague, J., Heuberger, R., & Frenz, M. (2020). Grafting of calcium chelating functionalities onto PLA monofilament fiber surfaces. Biointerphases: A Journal of Biomaterials and Biological Interfaces, 15(1), 011006 (9 pp.). https://doi.org/10.1116/1.5129989
Responsive nanofibers with embedded hierarchical lipid self-assemblies
Tien, N. D., Maurya, A. K., Fortunato, G., Rottmar, M., Zboray, R., Erni, R., … Sadeghpour, A. (2020). Responsive nanofibers with embedded hierarchical lipid self-assemblies. Langmuir, 36(40), 11787-11797. https://doi.org/10.1021/acs.langmuir.0c01487
Fungal melanin-based electrospun membranes for heavy metal detoxification of water
Tran-Ly, A. N., Ribera, J., Schwarze, F. W. M. R., Brunelli, M., & Fortunato, G. (2020). Fungal melanin-based electrospun membranes for heavy metal detoxification of water. Sustainable Materials and Technologies, 23, e00146 (10 pp.). https://doi.org/10.1016/j.susmat.2019.e00146
 

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