An electrically and mechanically self-healing composite with pressure-and flexion-sensitive properties for electronic skin applications BCK Tee, C Wang, R Allen, Z Bao Nature nanotechnology 7 (12), 825-832, 2012 | 1489 | 2012 |
A highly stretchable autonomous self-healing elastomer CH Li, C Wang, C Keplinger, JL Zuo, L Jin, Y Sun, P Zheng, Y Cao, ... Nature chemistry 8 (6), 618-624, 2016 | 1325 | 2016 |
Self-healing chemistry enables the stable operation of silicon microparticle anodes for high-energy lithium-ion batteries C Wang, H Wu, Z Chen, MT McDowell, Y Cui, Z Bao Nature chemistry 5 (12), 1042-1048, 2013 | 1219 | 2013 |
Amphiphilic building blocks for self-assembly: from amphiphiles to supra-amphiphiles C Wang, Z Wang, X Zhang Accounts of chemical research 45 (4), 608-618, 2012 | 739 | 2012 |
Supramolecular amphiphiles X Zhang, C Wang Chemical Society Reviews 40 (1), 94-101, 2011 | 715 | 2011 |
Stretchable and self-healing polymers and devices for electronic skin SJ Benight, C Wang, JBH Tok, Z Bao Progress in Polymer Science 38 (12), 1961-1977, 2013 | 639 | 2013 |
A transparent, self‐healing, highly stretchable ionic conductor Y Cao, TG Morrissey, E Acome, SI Allec, BM Wong, C Keplinger, C Wang Advanced Materials 29 (10), 1605099, 2017 | 529 | 2017 |
Stretchable self-healing polymeric dielectrics cross-linked through metal–ligand coordination YL Rao, A Chortos, R Pfattner, F Lissel, YC Chiu, V Feig, J Xu, ... Journal of the American Chemical Society 138 (18), 6020-6027, 2016 | 512 | 2016 |
Self-healing electronic skins for aquatic environments Y Cao, YJ Tan, S Li, WW Lee, H Guo, Y Cai, C Wang, BCK Tee Nature Electronics 2 (2), 75-82, 2019 | 469 | 2019 |
A three‐dimensionally interconnected carbon nanotube–conducting polymer hydrogel network for high‐performance flexible battery electrodes Z Chen, JWF To, C Wang, Z Lu, N Liu, A Chortos, L Pan, F Wei, Y Cui, ... Advanced energy materials 4 (12), 1400207, 2014 | 327 | 2014 |
High-performance lithium metal negative electrode with a soft and flowable polymer coating G Zheng, C Wang, A Pei, J Lopez, F Shi, Z Chen, AD Sendek, HW Lee, ... ACS Energy Letters 1 (6), 1247-1255, 2016 | 314 | 2016 |
High‐areal‐capacity silicon electrodes with low‐cost silicon particles based on spatial control of self‐healing binder Z Chen, C Wang, J Lopez, Z Lu, Y Cui, Z Bao Advanced Energy Materials 5 (8), 1401826, 2015 | 257 | 2015 |
A rapid and efficient self‐healing thermo‐reversible elastomer crosslinked with graphene oxide C Wang, N Liu, R Allen, JBH Tok, Y Wu, F Zhang, Y Chen, Z Bao Advanced materials 25 (40), 5785-5790, 2013 | 257 | 2013 |
An enzyme‐responsive polymeric superamphiphile C Wang, Q Chen, Z Wang, X Zhang Angewandte Chemie 122 (46), 8794-8797, 2010 | 243 | 2010 |
Controlled self‐assembly manipulated by charge‐transfer interactions: from tubes to vesicles C Wang, S Yin, S Chen, H Xu, Z Wang, X Zhang Angewandte Chemie International Edition 47 (47), 9049-9052, 2008 | 226 | 2008 |
A highly stretchy, transparent elastomer with the capability to automatically self‐heal underwater Y Cao, H Wu, SI Allec, BM Wong, DS Nguyen, C Wang Advanced Materials 30 (49), 1804602, 2018 | 185 | 2018 |
Supramolecular Amphiphiles Based on a Water‐Soluble Charge‐Transfer Complex: Fabrication of Ultralong Nanofibers with Tunable Straightness C Wang, Y Guo, Y Wang, H Xu, R Wang, X Zhang Angewandte Chemie International Edition 48 (47), 8962-8965, 2009 | 173 | 2009 |
A pH‐responsive superamphiphile based on dynamic covalent bonds C Wang, G Wang, Z Wang, X Zhang Chemistry–A European Journal 12 (17), 3322-3325, 2011 | 158 | 2011 |
Superamphiphiles based on directional charge‐transfer interactions: from supramolecular engineering to well‐defined nanostructures K Liu, C Wang, Z Li, X Zhang Angewandte Chemie International Edition 21 (50), 4952-4956, 2011 | 149 | 2011 |
Photoresponsive Supramolecular Amphiphiles for Controlled Self‐Assembly of Nanofibers and Vesicles C Wang, Q Chen, H Xu, Z Wang, X Zhang Advanced Materials 23 (22), 2553-2555, 2010 | 117 | 2010 |