Looking beyond fibrillar features to scale gecko‐like adhesion MD Bartlett, AB Croll, DR King, BM Paret, DJ Irschick, AJ Crosby Advanced Materials 24 (8), 1078, 2012 | 333 | 2012 |
Tough hydrogels with fast, strong, and reversible underwater adhesion based on a multiscale design P Rao, TL Sun, L Chen, R Takahashi, G Shinohara, H Guo, DR King, ... Advanced Materials 30 (32), 1801884, 2018 | 273 | 2018 |
Energy‐dissipative matrices enable synergistic toughening in fiber reinforced soft composites Y Huang, DR King, TL Sun, T Nonoyama, T Kurokawa, T Nakajima, ... Advanced Functional Materials 27 (9), 1605350, 2017 | 155 | 2017 |
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 |
Extremely tough composites from fabric reinforced polyampholyte hydrogels DR King, TL Sun, Y Huang, T Kurokawa, T Nonoyama, AJ Crosby, ... Materials Horizons 2 (6), 584-591, 2015 | 131 | 2015 |
Bulk energy dissipation mechanism for the fracture of tough and self-healing hydrogels TL Sun, F Luo, W Hong, K Cui, Y Huang, HJ Zhang, DR King, T Kurokawa, ... Macromolecules 50 (7), 2923-2931, 2017 | 126 | 2017 |
Strong and tough polyion-complex hydrogels from oppositely charged polyelectrolytes: A comparative study with polyampholyte hydrogels F Luo, TL Sun, T Nakajima, DR King, T Kurokawa, Y Zhao, AB Ihsan, X Li, ... Macromolecules 49 (7), 2750-2760, 2016 | 108 | 2016 |
Tough particle‐based double network hydrogels for functional solid surface coatings R Takahashi, K Shimano, H Okazaki, T Kurokawa, T Nakajima, ... Advanced Materials Interfaces 5 (23), 1801018, 2018 | 100 | 2018 |
Creating stiff, tough, and functional hydrogel composites with low‐melting‐point alloys R Takahashi, TL Sun, Y Saruwatari, T Kurokawa, DR King, JP Gong Advanced Materials 30 (16), 1706885, 2018 | 98 | 2018 |
Hydrogel/elastomer laminates bonded via fabric interphases for stimuli-responsive actuators AM Hubbard, W Cui, Y Huang, R Takahashi, MD Dickey, J Genzer, ... Matter 1 (3), 674-689, 2019 | 91 | 2019 |
Fiber‐reinforced viscoelastomers show extraordinary crack resistance that exceeds metals W Cui, DR King, Y Huang, L Chen, TL Sun, Y Guo, Y Saruwatari, CY Hui, ... Advanced Materials 32 (31), 1907180, 2020 | 89 | 2020 |
Molecular mobility and cation conduction in polyether–ester–sulfonate copolymer ionomers GJ Tudryn, MV O’Reilly, S Dou, DR King, KI Winey, J Runt, RH Colby Macromolecules 45 (9), 3962-3973, 2012 | 86 | 2012 |
Facile synthesis of novel elastomers with tunable dynamics for toughness, self-healing and adhesion L Chen, TL Sun, K Cui, DR King, T Kurokawa, Y Saruwatari, JP Gong Journal of Materials Chemistry A 7 (29), 17334-17344, 2019 | 76 | 2019 |
Automation of active space selection for multireference methods via machine learning on chemical bond dissociation WS Jeong, SJ Stoneburner, D King, R Li, A Walker, R Lindh, L Gagliardi Journal of Chemical Theory and Computation 16 (4), 2389-2399, 2020 | 62 | 2020 |
Ionic aggregate dissolution and conduction in a plasticized single-ion polymer conductor MV O'Reilly, H Masser, DR King, PC Painter, RH Colby, KI Winey, J Runt Polymer 59, 133-143, 2015 | 57 | 2015 |
Macroscale double networks: design criteria for optimizing strength and toughness DR King, T Okumura, R Takahashi, T Kurokawa, JP Gong ACS Applied Materials & Interfaces 11 (38), 35343-35353, 2019 | 55 | 2019 |
Superior fracture resistance of fiber reinforced polyampholyte hydrogels achieved by extraordinarily large energy-dissipative process zones Y Huang, DR King, W Cui, TL Sun, H Guo, T Kurokawa, HR Brown, ... Journal of Materials Chemistry A 7 (22), 13431-13440, 2019 | 44 | 2019 |
Double network hydrogels based on semi-rigid polyelectrolyte physical networks R Takahashi, T Ikai, T Kurokawa, DR King, JP Gong Journal of Materials Chemistry B 7 (41), 6347-6354, 2019 | 41 | 2019 |
Geckos as springs: mechanics explain across-species scaling of adhesion CA Gilman, MJ Imburgia, MD Bartlett, DR King, AJ Crosby, DJ Irschick PLoS One 10 (9), e0134604, 2015 | 40 | 2015 |
Polyelectrolyte complexation via viscoelastic phase separation results in tough and self-recovering porous hydrogels K Murakawa, DR King, T Sun, H Guo, T Kurokawa, JP Gong Journal of Materials Chemistry B 7 (35), 5296-5305, 2019 | 39 | 2019 |