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 | 998 | 2016 |
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 (Deerfield Beach, Fla.) 27 (27), 4035, 2015 | 950 | 2015 |
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 (1), 14230, 2017 | 917 | 2017 |
Hydrogel machines X Liu, J Liu, S Lin, X Zhao Materials Today 36, 102-124, 2020 | 816 | 2020 |
Pure pedot: Pss hydrogels B Lu, H Yuk, S Lin, N Jian, K Qu, J Xu, X Zhao Nature communications 10 (1), 1043, 2019 | 795 | 2019 |
Stretchable hydrogel electronics and devices S Lin, H Yuk, T Zhang, GA Parada, H Koo, C Yu, X Zhao Wiley Blackwell, 2015 | 667 | 2015 |
Soft materials by design: unconventional polymer networks give extreme properties X Zhao, X Chen, H Yuk, S Lin, X Liu, G Parada Chemical Reviews 121 (8), 4309-4372, 2021 | 646 | 2021 |
Anti-fatigue-fracture hydrogels S Lin, X Liu, J Liu, H Yuk, HC Loh, GA Parada, C Settens, J Song, A Masic, ... Science advances 5 (1), eaau8528, 2019 | 422 | 2019 |
3D printing of living responsive materials and devices X Liu, H Yuk, S Lin, GA Parada, TC Tang, E Tham, C de la Fuente‐Nunez, ... Advanced Materials 30 (4), 1704821, 2018 | 421 | 2018 |
Muscle-like fatigue-resistant hydrogels by mechanical training S Lin, J Liu, X Liu, X Zhao Proceedings of the National Academy of Sciences 116 (21), 10244-10249, 2019 | 399 | 2019 |
Fatigue-resistant adhesion of hydrogels J Liu, S Lin, X Liu, Z Qin, Y Yang, J Zang, X Zhao Nature communications 11 (1), 1071, 2020 | 279 | 2020 |
A soft neuroprosthetic hand providing simultaneous myoelectric control and tactile feedback G Gu, N Zhang, H Xu, S Lin, Y Yu, G Chai, L Ge, H Yang, Q Shao, ... Nature biomedical engineering 7 (4), 589-598, 2023 | 266 | 2023 |
Stretchable living materials and devices with hydrogel–elastomer hybrids hosting programmed cells X Liu, TC Tang, E Tham, H Yuk, S Lin, TK Lu, X Zhao Proceedings of the National Academy of Sciences 114 (9), 2200-2205, 2017 | 262 | 2017 |
Ingestible hydrogel device X Liu, C Steiger, S Lin, GA Parada, J Liu, HF Chan, H Yuk, NV Phan, ... Nature communications 10 (1), 493, 2019 | 242 | 2019 |
Anisotropically fatigue‐resistant hydrogels X Liang, G Chen, S Lin, J Zhang, L Wang, P Zhang, Z Wang, Z Wang, ... Advanced Materials 33 (30), 2102011, 2021 | 238* | 2021 |
Design of stiff, tough and stretchy hydrogel composites via nanoscale hybrid crosslinking and macroscale fiber reinforcement S Lin, C Cao, Q Wang, M Gonzalez, JE Dolbow, X Zhao Soft matter 10 (38), 7519-7527, 2014 | 208 | 2014 |
A large deformation viscoelastic model for double-network hydrogels Y Mao, S Lin, X Zhao, L Anand Journal of the Mechanics and Physics of Solids 100, 103-130, 2017 | 165 | 2017 |
Predicting fracture energies and crack-tip fields of soft tough materials T Zhang, S Lin, H Yuk, X Zhao Extreme Mechanics Letters 4, 1-8, 2015 | 156 | 2015 |
Strong, tough, stretchable, and self‐adhesive hydrogels from intrinsically unstructured proteins MA Gonzalez, JR Simon, A Ghoorchian, Z Scholl, S Lin, M Rubinstein, ... Advanced Materials 29 (10), 1604743, 2017 | 154 | 2017 |
High stretchability, strength, and toughness of living cells enabled by hyperelastic vimentin intermediate filaments J Hu, Y Li, Y Hao, T Zheng, SK Gupta, GA Parada, H Wu, S Lin, S Wang, ... Proceedings of the national Academy of Sciences 116 (35), 17175-17180, 2019 | 130 | 2019 |