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  • (-) Empa Laboratories = 401 Biomimetic Membranes and Textiles
  • (-) Publication Year = 2006 - 2019
  • (-) Journal ≠ Analyst
  • (-) Empa Authors = Hegemann, Dirk
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Absorbing TiO<em><sub>x</sub></em> thin film enabling laser welding of polyurethane membranes and polyamide fibers
Amberg, M., Haag, A., Storchenegger, R., Rupper, P., Lehmeier, F., Rossi, R. M., & Hegemann, D. (2015). Absorbing TiOx thin film enabling laser welding of polyurethane membranes and polyamide fibers. Science and Technology of Advanced Materials, 16(5), 055002 (7 pp.). https://doi.org/10.1088/1468-6996/16/5/055002
Base fiber technologies for smart textiles
Hufenus, R., Hegemann, D., Gaan, S., Reifler, F. A., & Scherer, L. J. (2012). Base fiber technologies for smart textiles (p. (2 pp.). Presented at the Fiber society 2012 fall meeting and technical conference. Rediscovering fibers in the 21st century. .
Biodegradable fibres for cardiac repair
Guex, G., Frobert, A., Cook, S., Fortunato, G., Körner, E., Hegemann, D., … Giraud, M. N. (2012). Biodegradable fibres for cardiac repair. In R. Hufenus & R. Rossi (Eds.), Fiber Society 2012 Spring Conference: Fiber Research for Tomorrow's Applications. The Fiber Society 2012 spring conference. Fiber research for tomorrow's applications. St. Gallen, Switzerland: Empa; The Fiber Society.
Considering the degradation effects of amino-functional plasma polymer coatings for biomedical application
Hegemann, D., Hanselmann, B., Guimond, S., Fortunato, G., Giraud, M. N., & Guex, A. G. (2014). Considering the degradation effects of amino-functional plasma polymer coatings for biomedical application. Surface and Coatings Technology, 255, 90-95. https://doi.org/10.1016/j.surfcoat.2014.01.054
Controlling the release from silver electrodes by titanium adlayers for health monitoring
Amberg, M., Rupper, P., Storchenegger, R., Weder, M., & Hegemann, D. (2015). Controlling the release from silver electrodes by titanium adlayers for health monitoring. Nanomedicine: Nanotechnology, Biology and Medicine, 11(4), 845-853. https://doi.org/10.1016/j.nano.2014.12.017
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
Developing base technologies for tomorrow's smart textiles
Hufenus, R., Scherer, L. J., Hegemann, D., Reifler, F. A., & Gaan, S. (2011). Developing base technologies for tomorrow's smart textiles (p. (4 pp.). Presented at the 18th international conference on composite materials (ICCM18). .
Effects of siloxane plasma coating on the frictional properties of polyester and polyamide fabrics
Bertaux, E., Le Marec, E., Crespy, D., Rossi, R., & Hegemann, D. (2009). Effects of siloxane plasma coating on the frictional properties of polyester and polyamide fabrics. Surface and Coatings Technology, 204(1-2), 165-171. https://doi.org/10.1016/j.surfcoat.2009.07.016
Embroidered electrode with silver/titanium coating for long-term ECG monitoring
Weder, M., Hegemann, D., Amberg, M., Hess, M., Boesel, L. F., Abächerli, R., … Rossi, R. M. (2015). Embroidered electrode with silver/titanium coating for long-term ECG monitoring. Sensors, 15(1), 1750-1759. https://doi.org/10.3390/s150101750
Fine-tuning of substrate architecture and surface chemistry promotes muscle tissue development
Guex, A. G., Kocher, F. M., Fortunato, G., Körner, E., Hegemann, D., Carrel, T. P., … Giraud, M. N. (2012). Fine-tuning of substrate architecture and surface chemistry promotes muscle tissue development. Acta Biomaterialia, 8(4), 1481-1489. https://doi.org/10.1016/j.actbio.2011.12.033
Formation of lateral chemical gradients in plasma polymer films shielded by an inclined mask
Vandenbossche, M., Petit, L., Mathon-Lagresle, J., Spano, F., Rupper, P., Bernard, L., & Hegemann, D. (2018). Formation of lateral chemical gradients in plasma polymer films shielded by an inclined mask. Plasma Processes and Polymers, 15(4), e1700185 (10 pp.). https://doi.org/10.1002/ppap.201700185
General protocol for the culture of cells on plasma-coated electrospun scaffolds
Guex, A. G., Fortunato, G., Hegemann, D., Tevaearai, H. T., & Giraud, M. N. (2013). General protocol for the culture of cells on plasma-coated electrospun scaffolds. In K. Turksen (Ed.), Methods in molecular biology: Vol. 1058. Stem cell nanotechnology: methods and protocols (pp. 119-131). https://doi.org/10.1007/7651_2013_8
Plasma-functionalized electrospun matrix for biograft development and cardiac function stabilization
Guex, A. G., Frobert, A., Valentin, J., Fortunato, G., Hegemann, D., Cook, S., … Giraud, M. N. (2014). Plasma-functionalized electrospun matrix for biograft development and cardiac function stabilization. Acta Biomaterialia, 10(7), 2996-3006. https://doi.org/10.1016/j.actbio.2014.01.006
Preparation of light-responsive membranes by a combined surface grafting and postmodification process
Schöller, K., Baumann, L., Hegemann, D., De Courten, D., Wolf, M., Rossi, R. M., & Scherer, L. J. (2014). Preparation of light-responsive membranes by a combined surface grafting and postmodification process. Journal of Visualized Experiments (85), e51680 (9 pp.). https://doi.org/10.3791/51680
Synthesis of poly(oligo(ethylene glycol)methacrylate)-functionalized membranes for thermally controlled drug delivery
Teixeira Jr., F., Popa, A. M., Guimond, S., Hegemann, D., & Rossi, R. M. (2013). Synthesis of poly(oligo(ethylene glycol)methacrylate)-functionalized membranes for thermally controlled drug delivery. Journal of Applied Polymer Science, 129(2), 636-643. https://doi.org/10.1002/app.38730
Tuning the resistance of polycarbonate membranes by plasma-induced graft surface modification
Baumann, L., Hegemann, D., de Courten, D., Wolf, M., Rossi, R. M., Meier, W. P., & Scherer, L. J. (2013). Tuning the resistance of polycarbonate membranes by plasma-induced graft surface modification. Applied Surface Science, 268, 450-457. https://doi.org/10.1016/j.apsusc.2012.12.125