An autonomously electrically self-healing liquid metal–elastomer composite for robust soft-matter robotics and electronics EJ Markvicka*, MD Bartlett*, X Huang, C Majidi Nature Materials 17 (7), 618, 2018 | 908 | 2018 |
Stretchable, High‐k Dielectric Elastomers through Liquid‐Metal Inclusions MD Bartlett, A Fassler, N Kazem, EJ Markvicka, P Mandal, C Majidi Advanced Materials 28 (19), 3726-3731, 2016 | 400 | 2016 |
A multifunctional shape-morphing elastomer with liquid metal inclusions MJ Ford, CP Ambulo, TA Kent, EJ Markvicka, C Pan, J Malen, TH Ware, ... Proceedings of the National Academy of Sciences 116 (43), 21438-21444, 2019 | 271 | 2019 |
Local control robotic surgical devices and related methods E Markvicka, T Frederick, J Mondry, J Bartels, S Farritor US Patent 9,010,214, 2015 | 263 | 2015 |
A liquid‐metal–elastomer nanocomposite for stretchable dielectric materials C Pan, EJ Markvicka, MH Malakooti, J Yan, L Hu, K Matyjaszewski, ... Advanced Materials 31 (23), 1900663, 2019 | 262 | 2019 |
Visually imperceptible liquid‐metal circuits for transparent, stretchable electronics with direct laser writing C Pan, K Kumar, J Li, EJ Markvicka, PR Herman, C Majidi Advanced Materials 30 (12), 1706937, 2018 | 224 | 2018 |
Methods, systems, and devices relating to robotic surgical devices, end effectors, and controllers S Farritor, T Frederick, J Bartels, E Markvicka, J Mondry US Patent 9,743,987, 2017 | 219 | 2017 |
Liquid metal supercooling for low‐temperature thermoelectric wearables MH Malakooti, N Kazem, J Yan, C Pan, EJ Markvicka, K Matyjaszewski, ... Advanced functional materials 29 (45), 1906098, 2019 | 169 | 2019 |
Rapid fabrication of soft, multilayered electronics for wearable biomonitoring MD Bartlett*, EJ Markvicka*, C Majidi Advanced Functional Materials 26 (46), 8496-8504, 2016 | 154 | 2016 |
Soft-matter printed circuit board with UV laser micropatterning T Lu, EJ Markvicka, Y Jin, C Majidi ACS applied materials & interfaces 9 (26), 22055-22062, 2017 | 115 | 2017 |
Octopus-inspired adhesive skins for intelligent and rapidly switchable underwater adhesion ST Frey, ABMT Haque, R Tutika, EV Krotz, C Lee, CB Haverkamp, ... Science Advances 8 (28), eabq1905, 2022 | 96 | 2022 |
ElectroDermis: Fully Untethered, Stretchable, and Highly-Customizable Electronic Bandages EJ Markvicka*, G Wang*, YC Lee, G Laput, C Majidi, L Yao Proceedings of the 2019 CHI Conference on Human Factors in Computing Systems …, 2019 | 89 | 2019 |
On‐Demand Programming of Liquid Metal‐Composite Microstructures through Direct Ink Write 3D Printing A Haake*, R Tutika*, GM Schloer, MD Bartlett, EJ Markvicka Advanced Materials 34 (20), 2200182, 2022 | 74 | 2022 |
3D printing silicone elastomer for patient‐specific wearable pulse oximeter S Abdollahi, EJ Markvicka, C Majidi, AW Feinberg Advanced healthcare materials 9 (15), 1901735, 2020 | 68 | 2020 |
Soft actuators using liquid crystal elastomers with encapsulated liquid metal joule heaters TA Kent, MJ Ford, EJ Markvicka, C Majidi Multifunctional Materials 3 (2), 025003, 2020 | 68 | 2020 |
Soft electronic skin for multi‐site damage detection and localization EJ Markvicka, R Tutika, MD Bartlett, C Majidi Advanced Functional Materials 29 (29), 1900160, 2019 | 67 | 2019 |
Single site robotic device and related systems and methods J Mondry, S Farritor, E Markvicka, T Frederick, J Bartels US Patent 9,498,292, 2016 | 65 | 2016 |
Methods, Systems, and Devices for Surgical Access and Insertion T Frederick, S Farritor, J Mondry, E Markvicka, D Oleynikov, J Greenburg US Patent App. 13/738,706, 2014 | 65 | 2014 |
Lightweight, thermally conductive liquid metal elastomer composite with independently controllable thermal conductivity and density EJ Krings, H Zhang, S Sarin, JE Shield, S Ryu, EJ Markvicka Small 17 (52), 2104762, 2021 | 50 | 2021 |
Metamaterial adhesives for programmable adhesion through reverse crack propagation D Hwang, C Lee, X Yang, JM Pérez-González, J Finnegan, B Lee, ... Nature Materials 22 (8), 1030-1038, 2023 | 44 | 2023 |