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Extrusion based additive manufacturing of polymer derived ceramics
Clemens, F., Sarraf, F., & Eckey, L. (2024). Extrusion based additive manufacturing of polymer derived ceramics. In Eighteenth European inter-regional conference on ceramics "CIEC-18" (pp. 1-5).
Rapid formation of carbon nanotubes–natural rubber films cured with glutaraldehyde for reducing percolation threshold concentration
Promsung, R., Chuaybamrung, A., Georgopoulou, A., Clemens, F., Nakaramontri, Y., Johns, J., … Kalkornsurapranee, E. (2024). Rapid formation of carbon nanotubes–natural rubber films cured with glutaraldehyde for reducing percolation threshold concentration. Discover Nano, 19(1), 30 (14 pp.). https://doi.org/10.1186/s11671-024-03970-5
Crosslinking and pyrolysis of a methyl-silsesquioxane: effect of heating rate on fabrication of polymer derived mullite ceramics using thermoplastic shaping
Sarraf, F., Hadian, A., Gfeller, F., Churakov, S. V., & Clemens, F. (2024). Crosslinking and pyrolysis of a methyl-silsesquioxane: effect of heating rate on fabrication of polymer derived mullite ceramics using thermoplastic shaping. Materials and Design, 237, 112578 (13 pp.). https://doi.org/10.1016/j.matdes.2023.112578
Electrospun (K,Na)NbO<sub>3</sub> piezoceramic fibers for self-powered tactile sensing application
Ichangi, A., Derichsweiler, C., Mathur, S., & Clemens, F. (2024). Electrospun (K,Na)NbO3 piezoceramic fibers for self-powered tactile sensing application. Advanced Engineering Materials, 26(1), 230166 (10 pp.). https://doi.org/10.1002/adem.202301066
A facile two-step thermal process for producing a dense, phase-pure, cubic Ta-doped lithium lanthanum zirconium oxide electrolyte for upscaling
Karuppiah, D., Komissarenko, D., Yüzbasi, N. S., Liu, Y., Warriam Sasikumar, P. V., Hadian, A., … Blugan, G. (2023). A facile two-step thermal process for producing a dense, phase-pure, cubic Ta-doped lithium lanthanum zirconium oxide electrolyte for upscaling. Batteries, 9(11), 554 (11 pp.). https://doi.org/10.3390/batteries9110554
3D printable self-sensing magnetorheological elastomer
Costi, L., Georgopoulou, A., Mondal, S., Iida, F., & Clemens, F. (2023). 3D printable self-sensing magnetorheological elastomer. Macromolecular Materials and Engineering. https://doi.org/10.1002/mame.202300294
Preceramic polymers for additive manufacturing of silicate ceramics
Sarraf, F., Churakov, S. V., & Clemens, F. (2023). Preceramic polymers for additive manufacturing of silicate ceramics. Polymers, 15(22), 4360 (29 pp.). https://doi.org/10.3390/polym15224360
Soft self-regulating heating elements for thermoplastic elastomer-based electronic skin applications
Georgopoulou, A., Diethelm, P., Wagner, M., Spolenak, R., & Clemens, F. (2023). Soft self-regulating heating elements for thermoplastic elastomer-based electronic skin applications. 3D Printing and Additive Manufacturing. https://doi.org/10.1089/3dp.2022.0242
Soft magnetoactive morphing structures with self-sensing properties, using multi-material extrusion additive manufacturing
Mondal, S., Kwaśniowski, M., Georgopoulou, A., Sapiński, B., Graule, T., & Clemens, F. (2024). Soft magnetoactive morphing structures with self-sensing properties, using multi-material extrusion additive manufacturing. In C. Klahn, M. Meboldt, & J. Ferchow (Eds.), Springer tracts in additive manufacturing. Industrializing additive manufacturing. Proceedings of AMPA2023 (pp. 365-386). https://doi.org/10.1007/978-3-031-42983-5_25
A prosthetic hand with integrated sensing elements for selective detection of mechanical and thermal stimuli
Georgopoulou, A., Eckey, L. M., & Clemens, F. (2023). A prosthetic hand with integrated sensing elements for selective detection of mechanical and thermal stimuli. Advanced Intelligent Systems, 5(10), 2300122 (9 pp.). https://doi.org/10.1002/aisy.202300122
Sensorized skin with biomimetic tactility features based on artificial cross-talk of bimodal resistive sensory inputs
Georgopoulou, A., Hardman, D., Thuruthel, T. G., Iida, F., & Clemens, F. (2023). Sensorized skin with biomimetic tactility features based on artificial cross-talk of bimodal resistive sensory inputs. Advanced Science, 10(30), 2301590 (11 pp.). https://doi.org/10.1002/advs.202301590
Selected design rules for material extrusion-based additive manufacturing of alumina based nozzles and heat exchangers considering limitations in printing, debinding, and sintering
Hadian, A., Morath, B., Biedermann, M., Meboldt, M., & Clemens, F. (2023). Selected design rules for material extrusion-based additive manufacturing of alumina based nozzles and heat exchangers considering limitations in printing, debinding, and sintering. Additive Manufacturing, 75, 103719 (8 pp.). https://doi.org/10.1016/j.addma.2023.103719
Magnetoelectric composites: engineering for tunable filters and energy harvesting applications
Kozielski, L., Bochenek, D., Clemens, F., & Sebastian, T. (2023). Magnetoelectric composites: engineering for tunable filters and energy harvesting applications. Applied Sciences, 13(15), 8854 (13 pp.). https://doi.org/10.3390/app13158854
Effect of stearic acid on the mechanical and rheological properties of PLA/HA biocomposites
Cé de Andrade, J., Cabral, F., Clemens, F. J., Leite Vieira, J., B.P. Soares, M., Hotza, D., & Fredel, M. C. (2023). Effect of stearic acid on the mechanical and rheological properties of PLA/HA biocomposites. Materials Today Communications, 35, 106357 (7 pp.). https://doi.org/10.1016/j.mtcomm.2023.106357
Self-healing sensorized soft robots
Roels, E., Terryn, S., Brancart, J., Sahraeeazartamar, F., Clemens, F., Van Assche, G., & Vanderborght, B. (2022). Self-healing sensorized soft robots. Materials Today Electronics, 1, 100003 (14 pp.). https://doi.org/10.1016/j.mtelec.2022.100003
Soft wearable piezoresistive sensors based on natural rubber fabricated with a customized vat-based additive manufacturing process
Georgopoulou, A., Srisawadi, S., Wiroonpochit, P., & Clemens, F. (2023). Soft wearable piezoresistive sensors based on natural rubber fabricated with a customized vat-based additive manufacturing process. Polymers, 15(10), 2410 (14 pp.). https://doi.org/10.3390/polym15102410
A multi-material robotic finger with integrated proprioceptive and tactile capabilities produced with a circular process
Georgopoulou, A., Hamelryckx, S., Junge, K., Eckey, L. M., Rogler, S., Katzschmann, R., … Clemens, F. (2023). A multi-material robotic finger with integrated proprioceptive and tactile capabilities produced with a circular process. In 2023 IEEE 6th international conference on soft robotics (RoboSoft 2023) (p. (6 pp.). https://doi.org/10.1109/RoboSoft55895.2023.10122054
Soft carbon-based multi-sensory resistive receptors
Georgopoulou, A., Eckey, L. M., & Clemens, F. (2022). Soft carbon-based multi-sensory resistive receptors. In A. P. Vassilopoulos & V. Michaud (Eds.), Life cycle assessment: Vol. 6. Proceedings of the 20th European conference on composite materials. Composite meet sustainability (pp. 247-254). Ecole Polytechnique Fédérale de Lausanne (EPFL).
Self-healing vitrimer composites for soft robotics
Jakob, L., Camille, B. H., Quentin-Arthur, P., Antonia, G., Frank, C., François, T., & Sophie, N. (2022). Self-healing vitrimer composites for soft robotics. In A. P. Vassilopoulos & V. Michaud (Eds.), Life cycle assessment: Vol. 6. Proceedings of the 20th European conference on composite materials. Composite meet sustainability (pp. 239-246). Ecole Polytechnique Fédérale de Lausanne (EPFL).
Magnetorheological behavior of thermoplastic elastomeric honeycomb structures fabricated by additive manufacturing
Mondal, S., Katzschmann, R., & Clemens, F. (2023). Magnetorheological behavior of thermoplastic elastomeric honeycomb structures fabricated by additive manufacturing. Composites Part B: Engineering, 252, 110498 (12 pp.). https://doi.org/10.1016/j.compositesb.2023.110498
 

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