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Nitrile-functionalized poly(siloxane) as electrolytes for high-energy-density solid-state Li batteries
Okur, F., Sheima, Y., Zimmerli, C., Zhang, H., Helbling, P., Fäh, A., … Kravchyk, K. V. (2024). Nitrile-functionalized poly(siloxane) as electrolytes for high-energy-density solid-state Li batteries. ChemSusChem, 17(3), e202301285 (8 pp.). https://doi.org/10.1002/cssc.202301285
On-demand cross-linkable bottlebrush polymers for voltage-driven artificial muscles
Adeli, Y., Owusu, F., Nüesch, F. A., & Opris, D. M. (2023). On-demand cross-linkable bottlebrush polymers for voltage-driven artificial muscles. ACS Applied Materials and Interfaces, 15(16), 20410-20420. https://doi.org/10.1021/acsami.2c23026
Polysiloxane inks for multimaterial 3d printing of high-permittivity dielectric elastomers
Danner, P. M., Pleij, T., Siqueira, G., Bayles, A. V., Venkatesan, T. R., Vermant, J., & Opris, D. M. (2023). Polysiloxane inks for multimaterial 3d printing of high-permittivity dielectric elastomers. Advanced Functional Materials. https://doi.org/10.1002/adfm.202313167
How to make elastomers piezoelectric?
Owusu, F., Venkatesan, T. R., Nüesch, F. A., Negri, R. M., & Opris, D. M. (2023). How to make elastomers piezoelectric? Advanced Materials Technologies, 8(15), 2300099 (25 pp.). https://doi.org/10.1002/admt.202300099
Synthesis of polysiloxane elastomers modified with sulfonyl side groups and their electromechanical response
Sheima, Y., Venkatesan, T. R., Frauenrath, H., & Opris, D. M. (2023). Synthesis of polysiloxane elastomers modified with sulfonyl side groups and their electromechanical response. Journal of Materials Chemistry C, 11(22), 7367-7376. https://doi.org/10.1039/d3tc00200d
High-permittivity polysiloxanes for solvent-free fabrication of dielectric elastomer actuators
von Szczepanski, J., & Opris, D. M. (2023). High-permittivity polysiloxanes for solvent-free fabrication of dielectric elastomer actuators. Advanced Materials Technologies, 8(2), 2201372 (9 pp.). https://doi.org/10.1002/admt.202201372
Printable polar silicone elastomers for healable supercapacitive strain sensors
von Szczepanski, J., Roels, E., Siqueira, G., Danner, P. M., Wolf, J., Legrand, J., … Opris, D. M. (2023). Printable polar silicone elastomers for healable supercapacitive strain sensors. Advanced Materials Technologies, 8(24), 2301310 (10 pp.). https://doi.org/10.1002/admt.202301310
Self-healable, high-permittivity elastomers for dielectric elastomer actuators
von Szczepanski, J., Danner, P. M., & Opris, D. M. (2023). Self-healable, high-permittivity elastomers for dielectric elastomer actuators. In H. R. Shea, I. A. Anderson, & J. D. Madden (Eds.), Proceedings of SPIE: Vol. 12482. Electroactive polymer actuators and devices (EAPAD) XXV (p. 124820E (8 pp.). https://doi.org/10.1117/12.2658385
Solvent-free synthesis and processing of conductive elastomer composites for green dielectric elastomer transducers
Danner, P. M., Iacob, M., Sasso, G., Burda, I., Rieger, B., Nüesch, F., & Opris, D. M. (2022). Solvent-free synthesis and processing of conductive elastomer composites for green dielectric elastomer transducers. Macromolecular Rapid Communications, 43(6), 2100823 (12 pp.). https://doi.org/10.1002/marc.202100823
Steering self-assembly of three-dimensional iptycenes on Au(111) by tuning molecule-surface interactions
Grossmann, L., Ringel, E., Rastgoo-Lahrood, A., King, B. T., Rosen, J., Heckl, W. M., … Lackinger, M. (2022). Steering self-assembly of three-dimensional iptycenes on Au(111) by tuning molecule-surface interactions. Angewandte Chemie International Edition, 61(25), e202201044 (6 pp.). https://doi.org/10.1002/anie.202201044
Steuerung der Selbstassemblierung von dreidimensionalen Iptycenen auf Au(111) durch Abstimmung der Molekül‐Oberflächen‐Wechselwirkungen
Grossmann, L., Ringel, E., Rastgoo‐Lahrood, A., King, B. T., Rosen, J., Heckl, W. M., … Lackinger, M. (2022). Steuerung der Selbstassemblierung von dreidimensionalen Iptycenen auf Au(111) durch Abstimmung der Molekül‐Oberflächen‐Wechselwirkungen. Angewandte Chemie, 134(25), e202201044 (7 pp.). https://doi.org/10.1002/ange.202201044
Slot-die coating of an on-the-shelf polymer with increased dielectric permittivity for stack actuators
Iacob, M., Verma, A., Buchner, T., Sheima, Y., Katzschmann, R., & Opris, D. M. (2022). Slot-die coating of an on-the-shelf polymer with increased dielectric permittivity for stack actuators. ACS Applied Polymer Materials, 4(1), 150-157. https://doi.org/10.1021/acsapm.1c01135
Heterogeneous silica-polyimide aerogel-in-aerogel nanocomposites
Kantor, Z., Wu, T., Zeng, Z., Gaan, S., Lehner, S., Jovic, M., … Zhao, S. (2022). Heterogeneous silica-polyimide aerogel-in-aerogel nanocomposites. Chemical Engineering Journal, 443, 136401 (11 pp.). https://doi.org/10.1016/j.cej.2022.136401
Dielectric properties of 3-3 flexible composites by infiltration of elastomers into porous ceramic structures using cellulose scaffold
Levy, I. K., Owussu, F., Geiger, T., Clemmens, F., Nüesch, F., Opris, D. M., & Negri, R. M. (2022). Dielectric properties of 3-3 flexible composites by infiltration of elastomers into porous ceramic structures using cellulose scaffold. European Polymer Journal, 180, 111616 (10 pp.). https://doi.org/10.1016/j.eurpolymj.2022.111616
Stretchable high response piezoelectric elastomers based on polable polynorbornene fillers in a polydimethylsiloxane matrix
Owusu, F., Nüesch, F. A., & Opris, D. M. (2022). Stretchable high response piezoelectric elastomers based on polable polynorbornene fillers in a polydimethylsiloxane matrix. Advanced Functional Materials, 32(41), 2207083 (11 pp.). https://doi.org/10.1002/adfm.202207083
Synthesis of polar polynorbornenes with high dielectric relaxation strength as candidate materials for dielectric applications
Owusu, F., Tress, M., Nüesch, F. A., Lehner, S., & Opris, D. M. (2022). Synthesis of polar polynorbornenes with high dielectric relaxation strength as candidate materials for dielectric applications. Materials Advances, 3(2), 998 (9 pp.). https://doi.org/10.1039/D1MA00704A
High dielectric permittivity elastomers: synthesis, processability, and device manufacturing
Sheima, Y., von Szczepanski, J., Danner, P., Owusu, F., Iacob, M., Perju, E., … Opris, D. M. (2022). High dielectric permittivity elastomers: synthesis, processability, and device manufacturing. In I. A. Anderson, J. D. Madden, & H. R. Shea (Eds.), Proceedings of SPIE: Vol. PC12042. Electroactive polymer actuators and devices (EAPAD) XXIV (p. PC1204200 (13 pp.). https://doi.org/10.1117/12.2610572
Transient elastomers with high dielectric permittivity for actuators, sensors, and beyond
Sheima, Y., von Szczepanski, J., Danner, P. M., Künniger, T., Remhof, A., Frauenrath, H., & Opris, D. M. (2022). Transient elastomers with high dielectric permittivity for actuators, sensors, and beyond. ACS Applied Materials and Interfaces, 14(35), 40257-40265. https://doi.org/10.1021/acsami.2c05631
Stress effects on the impedance and ferroelectricity of PVDF- BiFeO<sub>3</sub>-MWCNT films using xanthan gum as dispersant
Sosa, M. D., Levy, I. K., Owusu, F., Nüesch, F., Opris, D., Negri, R. M., & Saleh Medina, L. M. (2022). Stress effects on the impedance and ferroelectricity of PVDF- BiFeO3-MWCNT films using xanthan gum as dispersant. Materials Chemistry and Physics, 286, 126175 (13 pp.). https://doi.org/10.1016/j.matchemphys.2022.126175
Self-healable, self-repairable, and recyclable electrically responsive artificial muscles
von Szczepanski, J., Danner, P. M., & Opris, D. M. (2022). Self-healable, self-repairable, and recyclable electrically responsive artificial muscles. Advanced Science, 9(22), 2202153 (9 pp.). https://doi.org/10.1002/advs.202202153
 

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