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Increased electromechanical sensitivity of polysiloxane elastomers by chemical modification with thioacetic groups
Perju, E., Ko, Y. S., Dünki, S. J., & Opris, D. M. (2020). Increased electromechanical sensitivity of polysiloxane elastomers by chemical modification with thioacetic groups. Materials and Design, 186, 108319 (8 pp.). https://doi.org/10.1016/j.matdes.2019.108319
Artificial muscles: dielectric elastomers responsive to low voltages
Sheima, Y., Caspari, P., & Opris, D. M. (2019). Artificial muscles: dielectric elastomers responsive to low voltages. Macromolecular Rapid Communications, 40(16), 1900205 (8 pp.). https://doi.org/10.1002/marc.201900205
Smart material based mechanical switch concepts for the variation of connectivity in the core of shape-adaptable sandwich panels
Testoni, O., Bergamini, A., Bodkhe, S., & Ermanni, P. (2019). Smart material based mechanical switch concepts for the variation of connectivity in the core of shape-adaptable sandwich panels. Smart Materials and Structures, 28(2), 025036 (10 pp.). https://doi.org/10.1088/1361-665X/aafa40
Polar elastomers as novel materials for electromechanical actuator applications
Opris, D. M. (2018). Polar elastomers as novel materials for electromechanical actuator applications. Advanced Materials, 30(5), 1703678 (23 pp.). https://doi.org/10.1002/adma.201703678
Electrospraying and ultraviolet light curing of nanometer-thin polydimethylsiloxane membranes for low-voltage dielectric elastomer transducers
Osmani, B., Töpper, T., Siketanc, M., Kovacs, G. M., & Müller, B. (2017). Electrospraying and ultraviolet light curing of nanometer-thin polydimethylsiloxane membranes for low-voltage dielectric elastomer transducers. In Y. Bar-Cohen (Ed.), Proceedings of SPIE: Vol. 10163. Electroactive polymer actuators and devices (EAPAD) 2017 (p. 101631E (12 pp.). https://doi.org/10.1117/12.2258214
Inkjet printed multiwall carbon nanotube electrodes for dielectric elastomer actuators
Baechler, C., Gardin, S., Abuhimd, H., & Kovacs, G. (2016). Inkjet printed multiwall carbon nanotube electrodes for dielectric elastomer actuators. Smart Materials and Structures, 25, 055009 (10 pp.). https://doi.org/10.1088/0964-1726/25/5/055009
Silicones with enhanced permittivity for dielectric elastomer actuators
Dünki, S. J., Dascalu, M., Nüesch, F. A., & Opris, D. M. (2016). Silicones with enhanced permittivity for dielectric elastomer actuators. In Y. Bar-Cohen & F. Vidal (Eds.), Proceedings of SPIE: Vol. 9798. Electroactive polymer actuators and devices (EAPAD) 2016 (p. 97982K (12 pp.). https://doi.org/10.1117/12.2218881
Dielectric materials, design and realization
Opris, D. M., Quinsaat, J. E. Q., Dünki, S., Ko, Y. S., Alexandru, M., Racles, C., & Nüesch, F. A. (2015). Dielectric materials, design and realization. In Y. Bar-Cohen (Ed.), Proceedings of SPIE: Vol. 9430. Electroactive polymer actuators and devices (EAPAD) 2015 (p. 94300A (10 pp.). https://doi.org/10.1117/12.2086134
Polysiloxanes with increased permittivity as artificial muscles
Opris, D. M., & Dünki, S. J. (2015). Polysiloxanes with increased permittivity as artificial muscles. Chimia, 69(9), 548. https://doi.org/10.2533/chimia.2015.548
Dielectric and insulating properties of an acrylic DEA material at high near-DC electric fields
Di Lillo, L., Schmidt, A., Bergamini, A., Ermanni, P., & Mazza, E. (2011). Dielectric and insulating properties of an acrylic DEA material at high near-DC electric fields. In Y. Bar-Cohen & F. Carpi (Eds.), Proceedings of SPIE: Vol. 7976. Electroactive polymer actuators and devices (EAPAD) 2011 (p. 79763B (6 pp.). https://doi.org/10.1117/12.894558
Dielectric elastomer materials for actuators and energy harvesting
Opris, D. M., Molberg, M., Nüesch, F., Löwe, C., Walder, C., & Fischer, B. (2011). Dielectric elastomer materials for actuators and energy harvesting. In Y. Bar-Cohen & F. Carpi (Eds.), Proceedings of SPIE: Vol. 7976. Electroactive polymer actuators and devices (EAPAD) 2011 (p. 79760G (8 pp.). https://doi.org/10.1117/12.880358