Metin Sitti
Affiliations: | Carnegie Mellon University, Pittsburgh, PA | ||
| Max Planck Institute for Intelligent Systems |
Area:
Mechanical Engineering, Materials Science Engineering, Robotics EngineeringGoogle:
"Metin Sitti"Parents
Sign in to add mentor| Hideki Hashimoto | grad student | 1989 | University of Tokyo | |
| (Teleoperated 2-D Micro/Nanomanipulation using Atomic Force Microscope) | ||||
Children
Sign in to add trainee| Burak Aksak | grad student | (E-Tree) | |
| Erdost Yildiz | grad student | (Neurotree) | |
| Afshin Tafazzoli | grad student | 2005 | Carnegie Mellon |
| Eugene Cheung | grad student | 2008 | Carnegie Mellon |
| Michael P. Murphy | grad student | 2008 | Carnegie Mellon |
| Seok Kim | grad student | 2009 | Carnegie Mellon |
| Cagdas D. Onal | grad student | 2009 | Carnegie Mellon |
| Bilsay Sumer | grad student | 2009 | Carnegie Mellon |
| Ozgur Unver | grad student | 2009 | Carnegie Mellon |
| Veaceslav G. Arabagi | grad student | 2011 | Carnegie Mellon |
| Yigit Menguc | grad student | 2012 | Carnegie Mellon |
| Sehyuk Yim | grad student | 2012 | Carnegie Mellon |
| Eric D. Diller | grad student | 2013 | Carnegie Mellon |
| Jiho Song | grad student | 2013 | Carnegie Mellon |
| Uyiosa A. Abusomwan | grad student | 2014 | Carnegie Mellon |
| Fan Wang | grad student | 2021-2025 | MaxPlanck-Institute for Metal Research, Stuttgart |
| Aniket Pal | post-doc | 2020- | Max Planck Institute for Intelligent Systems (E-Tree) |
| Jiahe Liao | post-doc | 2022-2024 | Max Planck Institute for Intelligent Systems (E-Tree) |
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Publications
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| Min H, Bae D, Jang S, et al. (2024) Stiffness-tunable velvet worm-inspired soft adhesive robot. Science Advances. 10: eadp8260 |
| Byun J, Pal A, Ko J, et al. (2024) Integrated mechanical computing for autonomous soft machines. Nature Communications. 15: 2933 |
| Zhang M, Pal A, Lyu X, et al. (2024) Artificial-goosebump-driven microactuation. Nature Materials |
| Li M, Pal A, Byun J, et al. (2023) Magnetic Putty as A Reconfigurable, Recyclable, And Accessible Soft Robotic Material. Advanced Materials (Deerfield Beach, Fla.). e2304825 |
| Zhang M, Pal A, Zheng Z, et al. (2023) Hydrogel muscles powering reconfigurable micro-metastructures with wide-spectrum programmability. Nature Materials |
| Liao J, Majidi C, Sitti M. (2023) Liquid Metal Actuators: A Comparative Analysis of Surface Tension Controlled Actuation. Advanced Materials (Deerfield Beach, Fla.). e2300560 |
| Feng W, Pal A, Wang T, et al. (2023) Cholesteric Liquid Crystal Polymeric Coatings for Colorful Artificial Muscles and Motile Humidity Sensor Skin Integrated with Magnetic Composites. Advanced Functional Materials. 33 |
| Pal A, Sitti M. (2023) Programmable mechanical devices through magnetically tunable bistable elements. Proceedings of the National Academy of Sciences of the United States of America. 120: e2212489120 |
| Zhang S, Hu X, Li M, et al. (2023) 3D-printed micrometer-scale wireless magnetic cilia with metachronal programmability. Science Advances. 9: eadf9462 |
| Hong C, Ren Z, Wang C, et al. (2022) Magnetically actuated gearbox for the wireless control of millimeter-scale robots. Science Robotics. 7: eabo4401 |