Cite
Design Optimization of Printed Multi-Layered Electroactive Actuators Used for Steerable Guidewire in Micro-Invasive Surgery.
MLA
Toinet, Simon, et al. “Design Optimization of Printed Multi-Layered Electroactive Actuators Used for Steerable Guidewire in Micro-Invasive Surgery.” Materials (1996-1944), vol. 17, no. 9, May 2024, p. 2135. EBSCOhost, https://doi.org/10.3390/ma17092135.
APA
Toinet, S., Benwadih, M., Szambolics, H., Revenant, C., Alincant, D., Bordet, M., Capsal, J.-F., Della-Schiava, N., Le, M.-Q., & Cottinet, P.-J. (2024). Design Optimization of Printed Multi-Layered Electroactive Actuators Used for Steerable Guidewire in Micro-Invasive Surgery. Materials (1996-1944), 17(9), 2135. https://doi.org/10.3390/ma17092135
Chicago
Toinet, Simon, Mohammed Benwadih, Helga Szambolics, Christine Revenant, David Alincant, Marine Bordet, Jean-Fabien Capsal, Nellie Della-Schiava, Minh-Quyen Le, and Pierre-Jean Cottinet. 2024. “Design Optimization of Printed Multi-Layered Electroactive Actuators Used for Steerable Guidewire in Micro-Invasive Surgery.” Materials (1996-1944) 17 (9): 2135. doi:10.3390/ma17092135.