Highly stretchable and tough hydrogels JY Sun, X Zhao, WRK Illeperuma, O Chaudhuri, KH Oh, DJ Mooney, ... Nature 489 (7414), 133-136, 2012 | 2691 | 2012 |
A theory of coupled diffusion and large deformation in polymeric gels W Hong, X Zhao, J Zhou, Z Suo Journal of the Mechanics and Physics of Solids 56 (5), 1779-1793, 2008 | 685 | 2008 |
Multi-scale multi-mechanism design of tough hydrogels: building dissipation into stretchy networks X Zhao Soft Matter 10 (5), 672-687, 2014 | 684 | 2014 |
Multifunctionality and control of the crumpling and unfolding of large-area graphene J Zang, S Ryu, N Pugno, Q Wang, Q Tu, MJ Buehler, X Zhao Nature materials 12 (4), 321-325, 2013 | 656 | 2013 |
3D printing of highly stretchable and tough hydrogels into complex, cellularized structures S Hong, D Sycks, HF Chan, S Lin, GP Lopez, F Guilak, KW Leong, X Zhao Advanced Materials 27 (27), 4035-4040, 2015 | 569* | 2015 |
A nonlinear field theory of deformable dielectrics Z Suo, X Zhao, WH Greene Journal of the Mechanics and Physics of Solids 56 (2), 467-486, 2008 | 517 | 2008 |
Method to analyze electromechanical stability of dielectric elastomers X Zhao, Z Suo Applied Physics Letters 91 (6), 061921, 2007 | 478 | 2007 |
Active scaffolds for on-demand drug and cell delivery X Zhao, J Kim, CA Cezar, N Huebsch, K Lee, K Bouhadir, DJ Mooney Proceedings of the National Academy of Sciences 108 (1), 67-72, 2011 | 475 | 2011 |
Printing ferromagnetic domains for untethered fast-transforming soft materials Y Kim, H Yuk, R Zhao, SA Chester, X Zhao Nature 558 (7709), 274-279, 2018 | 454 | 2018 |
Electromechanical hysteresis and coexistent states in dielectric elastomers X Zhao, W Hong, Z Suo Physical review B 76 (13), 134113, 2007 | 401 | 2007 |
Tough bonding of hydrogels to diverse non-porous surfaces H Yuk, T Zhang, S Lin, GA Parada, X Zhao Nature materials 15 (2), 190-196, 2016 | 391 | 2016 |
Hydraulic hydrogel actuators and robots optically and sonically camouflaged in water H Yuk, S Lin, C Ma, M Takaffoli, NX Fang, X Zhao Nature communications 8, 14230, 2017 | 376 | 2017 |
Skin-inspired hydrogel–elastomer hybrids with robust interfaces and functional microstructures H Yuk, T Zhang, GA Parada, X Liu, X Zhao Nature communications 7, 12028, 2016 | 359 | 2016 |
Theory of dielectric elastomers capable of giant deformation of actuation X Zhao, Z Suo Physical Review Letters 104 (17), 178302, 2010 | 345 | 2010 |
Hydrogel bioelectronics H Yuk, B Lu, X Zhao Chemical Society Reviews 48 (6), 1642-1667, 2019 | 340 | 2019 |
Stretchable hydrogel electronics and devices S Lin, H Yuk, T Zhang, GA Parada, H Koo, C Yu, X Zhao Advanced Materials 28 (22), 4497-4505, 2016 | 340 | 2016 |
Maximal energy that can be converted by a dielectric elastomer generator SJA Koh, X Zhao, Z Suo Applied Physics Letters 94 (26), 262902, 2009 | 307 | 2009 |
A theory of constrained swelling of a pH-sensitive hydrogel R Marcombe, S Cai, W Hong, X Zhao, Y Lapusta, Z Suo Soft Matter 6 (4), 784-793, 2010 | 284 | 2010 |
Mechanisms of large actuation strain in dielectric elastomers SJA Koh, T Li, J Zhou, X Zhao, W Hong, J Zhu, Z Suo Journal of Polymer Science Part B: Polymer Physics 49 (7), 504-515, 2011 | 278 | 2011 |
Matrix elasticity of void-forming hydrogels controls transplanted-stem-cell-mediated bone formation N Huebsch, E Lippens, K Lee, M Mehta, ST Koshy, MC Darnell, RM Desai, ... Nature Materials 14 (12), 1269-1277, 2015 | 261 | 2015 |