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), 618-624, 2018 | 859 | 2018 |
High thermal conductivity in soft elastomers with elongated liquid metal inclusions MD Bartlett, N Kazem, MJ Powell-Palm, X Huang, W Sun, JA Malen, ... Proceedings of the National Academy of Sciences 114 (9), 2143-2148, 2017 | 565 | 2017 |
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 | 376 | 2016 |
Looking Beyond Fibrillar Features to Scale Gecko‐Like Adhesion MD Bartlett, AB Croll, DR King, BM Paret, DJ Irschick, AJ Crosby Advanced Materials, 2012 | 333 | 2012 |
Extreme toughening of soft materials with liquid metal N Kazem, MD Bartlett, C Majidi Advanced Materials 30 (22), 1706594, 2018 | 223 | 2018 |
Rapid fabrication of soft, multilayered electronics for wearable biomonitoring MD Bartlett, EJ Markvicka, C Majidi Advanced Functional Materials 26 (46), 8496-8504, 2016 | 146 | 2016 |
Creating gecko‐like adhesives for “real world” surfaces DR King, MD Bartlett, CA Gilman, DJ Irschick, AJ Crosby Advanced Materials 26 (25), 4345-4351, 2014 | 144 | 2014 |
Liquid metal–elastomer soft composites with independently controllable and highly tunable droplet size and volume loading R Tutika, S Kmiec, ABMT Haque, SW Martin, MD Bartlett ACS applied materials & interfaces 11 (19), 17873-17883, 2019 | 140 | 2019 |
Flexible thermoelectric generators with inkjet-printed bismuth telluride nanowires and liquid metal contacts B Chen, M Kruse, B Xu, R Tutika, W Zheng, MD Bartlett, Y Wu, ... Nanoscale 11 (12), 5222-5230, 2019 | 133 | 2019 |
Mechanical and functional tradeoffs in multiphase liquid metal, solid particle soft composites R Tutika, SH Zhou, RE Napolitano, MD Bartlett Advanced Functional Materials 28 (45), 1804336, 2018 | 133 | 2018 |
Switchable adhesives for multifunctional interfaces AB Croll, N Hosseini, MD Bartlett Advanced Materials Technologies 4 (8), 1900193, 2019 | 125 | 2019 |
Tunable mechanical metamaterials through hybrid kirigami structures DG Hwang, MD Bartlett Scientific reports 8 (1), 3378, 2018 | 116 | 2018 |
Shape morphing mechanical metamaterials through reversible plasticity D Hwang, EJ Barron III, ABMT Haque, MD Bartlett Science robotics 7 (63), eabg2171, 2022 | 102 | 2022 |
Solid–liquid composites for soft multifunctional materials RW Style, R Tutika, JY Kim, MD Bartlett Advanced Functional Materials 31 (1), 2005804, 2021 | 93 | 2021 |
Designing bio‐inspired adhesives for shear loading: from simple structures to complex patterns MD Bartlett, AB Croll, AJ Crosby Advanced Functional Materials 22 (23), 4985-4992, 2012 | 89 | 2012 |
Programmable liquid metal microstructures for multifunctional soft thermal composites ABMT Haque, R Tutika, RL Byrum, MD Bartlett Advanced Functional Materials 30 (25), 2000832, 2020 | 87 | 2020 |
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 | 83 | 2022 |
Self-healing liquid metal composite for reconfigurable and recyclable soft electronics R Tutika, ABMT Haque, MD Bartlett Communications Materials 2 (1), 64, 2021 | 83 | 2021 |
Self-healing materials for soft-matter machines and electronics MD Bartlett, MD Dickey, C Majidi NPG Asia Materials 11 (1), 21, 2019 | 76 | 2019 |
Kirigami-inspired structures for smart adhesion DG Hwang, K Trent, MD Bartlett ACS applied materials & interfaces 10 (7), 6747-6754, 2018 | 73 | 2018 |