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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
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
Gallium complex-functionalized P4HB fibers: a trojan horse to fight bacterial infection
Müller, A., Fessele, C., Zuber, F., Rottmar, M., Maniura-Weber, K., Ren, Q., & Guex, A. G. (2021). Gallium complex-functionalized P4HB fibers: a trojan horse to fight bacterial infection. ACS Applied Bio Materials, 4(1), 682-691. https://doi.org/10.1021/acsabm.0c01221
Design of a versatile sample holder for facile culture of cells on electrospun membranes or thin polymer films under flow conditions
Mertgen, A. S., Rottmar, M., Weidenbacher, L., & Guex, A. G. (2020). Design of a versatile sample holder for facile culture of cells on electrospun membranes or thin polymer films under flow conditions. In K. Turksen (Ed.), Methods in molecular biology: Vol. 2125. Stem cell nanotechnology. Methods and protocols (pp. 1-13). https://doi.org/10.1007/7651_2018_192
Multi-functional biomaterials: combining materials modification strategies for engineering of cell contacting surfaces
Mertgen, A. S., Trossmann, V. T., Guex, A. G., Maniura-Weber, K., Scheibel, T., & Rottmar, M. (2020). Multi-functional biomaterials: combining materials modification strategies for engineering of cell contacting surfaces. ACS Applied Materials and Interfaces, 12(19), 21342-21367. https://doi.org/10.1021/acsami.0c01893
Structurally tunable pH-responsive phosphine oxide based gels by facile synthesis strategy
Nazir, R., Parida, D., Guex, A. G., Rentsch, D., Zarei, A., Gooneie, A., … Gaan, S. (2020). Structurally tunable pH-responsive phosphine oxide based gels by facile synthesis strategy. ACS Applied Materials and Interfaces, 12, 7639-7649. https://doi.org/10.1021/acsami.9b22808
Electrospun colourimetric sensors for detecting volatile amines
Ulrich, S., Moura, S. O., Diaz, Y., Clerc, M., Guex, A. G., Read de Alaniz, J., … Boesel, L. F. (2020). Electrospun colourimetric sensors for detecting volatile amines. Sensors and Actuators B: Chemical, 322, 128570 (10 pp.). https://doi.org/10.1016/j.snb.2020.128570
Antibacterial, cytocompatible, sustainably sourced: cellulose membranes with bifunctional peptides for advanced wound dressings
Weishaupt, R., Zünd, J. N., Heuberger, L., Zuber, F., Faccio, G., Robotti, F., … Guex, A. G. (2020). Antibacterial, cytocompatible, sustainably sourced: cellulose membranes with bifunctional peptides for advanced wound dressings. Advanced Healthcare Materials, 9(7), 1901850 (13 pp.). https://doi.org/10.1002/adhm.201901850
In vitro endothelialization of surface-integrated nanofiber networks for stretchable blood interfaces
Weidenbacher, L., Müller, E., Guex, A. G., Zündel, M., Schweizer, P., Marina, V., … Fortunato, G. (2019). In vitro endothelialization of surface-integrated nanofiber networks for stretchable blood interfaces. ACS Applied Materials and Interfaces, 11(6), 5740-5751. https://doi.org/10.1021/acsami.8b18121
Engineering anisotropic muscle tissue using acoustic cell patterning
Armstrong, J. P. K., Puetzer, J. L., Serio, A., Guex, A. G., Kapnisi, M., Breant, A., … Stevens, M. M. (2018). Engineering anisotropic muscle tissue using acoustic cell patterning. Advanced Materials, 30(43), 1802649 (7 pp.). https://doi.org/10.1002/adma.201802649
Auxetic cardiac patches with tunable mechanical and conductive properties toward treating myocardial infarction
Kapnisi, M., Mansfield, C., Marijon, C., Guex, A. G., Perbellini, F., Bardi, I., … Stevens, M. M. (2018). Auxetic cardiac patches with tunable mechanical and conductive properties toward treating myocardial infarction. Advanced Functional Materials, 28(21), 1800618 (12 pp.). https://doi.org/10.1002/adfm.201800618
Controlling the surface structure of electrospun fibers: effect on endothelial cells and blood coagulation
Mertgen, A. S., Yazgan, G., Guex, A. G., Fortunato, G., Müller, E., Huber, L., … Rottmar, M. (2018). Controlling the surface structure of electrospun fibers: effect on endothelial cells and blood coagulation. Biointerphases: A Journal of Biomaterials and Biological Interfaces, 13(5), 051001 (10 pp.). https://doi.org/10.1116/1.5047668
Electrospun aniline-tetramer-<I>co</I>-polycaprolactone fibers for conductive, biodegradable scaffolds
Guex, A. G., Spicer, C. D., Armgarth, A., Gelmi, A., Humphrey, E. J., Terracciano, C. M., … Stevens, M. M. (2017). Electrospun aniline-tetramer-co-polycaprolactone fibers for conductive, biodegradable scaffolds. MRS Communications, 7(3), 375-382. https://doi.org/10.1557/mrc.2017.45
Hierarchical self-assembly of poly(urethane)/poly(vinylidene fluoride-<i>co</i>-hexafluoropropylene) blends into highly hydrophobic electrospun fibers with reduced protein adsorption profiles
Guex, A. G., Weidenbacher, L., Maniura-Weber, K., Rossi, R. M., & Fortunato, G. (2017). Hierarchical self-assembly of poly(urethane)/poly(vinylidene fluoride-co-hexafluoropropylene) blends into highly hydrophobic electrospun fibers with reduced protein adsorption profiles. Macromolecular Materials and Engineering, 302(10), 1700081 (8 pp.). https://doi.org/10.1002/mame.201700081
Electrospraying of microfluidic encapsulated cells for the fabrication of cell-laden electrospun hybrid tissue constructs
Weidenbacher, L., Abrishamkar, A., Rottmar, M., Guex, A. G., Maniura-Weber, K., deMello, A. J., … Fortunato, G. (2017). Electrospraying of microfluidic encapsulated cells for the fabrication of cell-laden electrospun hybrid tissue constructs. Acta Biomaterialia, 64, 137-147. https://doi.org/10.1016/j.actbio.2017.10.012
A compliant and biomimetic three-layered vascular graft for small blood vessels
Zhang, Y., Li, X. S., Guex, A. G., Liu, S. S., Müller, E., Innocenti Malini, R., … Spano, F. (2017). A compliant and biomimetic three-layered vascular graft for small blood vessels. Biofabrication, 9(2), 025010 (14 pp.). https://doi.org/10.1088/1758-5090/aa6bae
Molecular weight driven structure formation of PEG based e-spun polymer blend fibers
Fortunato, G., Guex, A. G., Popa, A. M., Rossi, R. M., & Hufenus, R. (2014). Molecular weight driven structure formation of PEG based e-spun polymer blend fibers. Polymer, 55(14), 3139-3148. https://doi.org/10.1016/j.polymer.2014.04.053
Covalent immobilisation of VEGF on plasma-coated electrospun scaffolds for tissue engineering applications
Guex, A. G., Hegemann, D., Giraud, M. N., Tevaearai, H. T., Popa, A. M., Rossi, R. M., & Fortunato, G. (2014). Covalent immobilisation of VEGF on plasma-coated electrospun scaffolds for tissue engineering applications. Colloids and Surfaces B: Biointerfaces, 123, 724-733. https://doi.org/10.1016/j.colsurfb.2014.10.016
Fasern zur Regeneration von Muskelgewebe
Guex, G. A., Fortunato, G., & Rossi, R. (2014). Fasern zur Regeneration von Muskelgewebe. Technical Textiles, 57(1), 24-25.
Fibers for muscle tissue regeneration
Guex, A. G., Fortunato, G., & Rossi, R. M. (2014). Fibers for muscle tissue regeneration. Technical Textiles, 57(2), E50-E51.