| Lightweight conductive graphene/thermoplastic polyurethane foams with ultrahigh compressibility for piezoresistive sensing H Liu, M Dong, W Huang, J Gao, K Dai, J Guo, G Zheng, C Liu, C Shen, ... Journal of Materials Chemistry C 5 (1), 73-83, 2017 | 630 | 2017 |
| Electrically conductive polymer composites for smart flexible strain sensors: a critical review H Liu, Q Li, S Zhang, R Yin, X Liu, Y He, K Dai, C Shan, J Guo, C Liu, ... Journal of Materials Chemistry C 6 (45), 12121-12141, 2018 | 603 | 2018 |
| Electrically conductive thermoplastic elastomer nanocomposites at ultralow graphene loading levels for strain sensor applications H Liu, Y Li, K Dai, G Zheng, C Liu, C Shen, X Yan, J Guo, Z Guo Journal of Materials Chemistry C 4 (1), 157-166, 2016 | 557 | 2016 |
| Electrically conductive strain sensing polyurethane nanocomposites with synergistic carbon nanotubes and graphene bifillers H Liu, J Gao, W Huang, K Dai, G Zheng, C Liu, C Shen, X Yan, J Guo, ... Nanoscale 8 (26), 12977-12989, 2016 | 543 | 2016 |
| Continuously prepared highly conductive and stretchable SWNT/MWNT synergistically composited electrospun thermoplastic polyurethane yarns for wearable sensing Y Li, B Zhou, G Zheng, X Liu, T Li, C Yan, C Cheng, K Dai, C Liu, C Shen, ... Journal of Materials Chemistry C 6 (9), 2258-2269, 2018 | 433 | 2018 |
| Flexible electrically resistive-type strain sensors based on reduced graphene oxide-decorated electrospun polymer fibrous mats for human motion monitoring Y Wang, J Hao, Z Huang, G Zheng, K Dai, C Liu, C Shen Carbon 126, 360-371, 2018 | 408 | 2018 |
| The effect of filler dimensionality on the electromechanical performance of polydimethylsiloxane based conductive nanocomposites for flexible strain sensors Y Zheng, Y Li, Z Li, Y Wang, K Dai, G Zheng, C Liu, C Shen Composites Science and Technology 139, 64-73, 2017 | 328 | 2017 |
| A highly stretchable and stable strain sensor based on hybrid carbon nanofillers/polydimethylsiloxane conductive composites for large human motions monitoring Y Zheng, Y Li, K Dai, Y Wang, G Zheng, C Liu, C Shen Composites Science and Technology 156, 276-286, 2018 | 313 | 2018 |
| Carbon nanotubes-adsorbed electrospun PA66 nanofiber bundles with improved conductivity and robust flexibility X Guan, G Zheng, K Dai, C Liu, X Yan, C Shen, Z Guo ACS applied materials & interfaces 8 (22), 14150-14159, 2016 | 266 | 2016 |
| Electrically conductive carbon black (CB) filled in situ microfibrillar poly (ethylene terephthalate)(PET)/polyethylene (PE) composite with a selective CB distribution K Dai, XB Xu, ZM Li Polymer 48 (3), 849-859, 2007 | 265 | 2007 |
| Comparative assessment of the strain-sensing behaviors of polylactic acid nanocomposites: reduced graphene oxide or carbon nanotubes C Hu, Z Li, Y Wang, J Gao, K Dai, G Zheng, C Liu, C Shen, H Song, Z Guo Journal of Materials Chemistry C 5 (9), 2318-2328, 2017 | 254 | 2017 |
| Significant stretchability enhancement of a crack-based strain sensor combined with high sensitivity and superior durability for motion monitoring Y Zhou, P Zhan, M Ren, G Zheng, K Dai, L Mi, C Liu, C Shen ACS applied materials & interfaces 11 (7), 7405-7414, 2019 | 253 | 2019 |
| Flexible and lightweight pressure sensor based on carbon nanotube/thermoplastic polyurethane-aligned conductive foam with superior compressibility and stability W Huang, K Dai, Y Zhai, H Liu, P Zhan, J Gao, G Zheng, C Liu, C Shen ACS applied materials & interfaces 9 (48), 42266-42277, 2017 | 245 | 2017 |
| Ultra-Stretchable, durable and conductive hydrogel with hybrid double network as high performance strain sensor and stretchable triboelectric nanogenerator H Sun, Y Zhao, C Wang, K Zhou, C Yan, G Zheng, J Huang, K Dai, C Liu, ... Nano Energy 76, 105035, 2020 | 232 | 2020 |
| Lightweight and robust carbon nanotube/polyimide foam for efficient and heat-resistant electromagnetic interference shielding and microwave absorption YY Wang, ZH Zhou, CG Zhou, WJ Sun, JF Gao, K Dai, DX Yan, ZM Li ACS applied materials & interfaces 12 (7), 8704-8712, 2020 | 230 | 2020 |
| Organic vapor sensing behaviors of conductive thermoplastic polyurethane–graphene nanocomposites H Liu, W Huang, X Yang, K Dai, G Zheng, C Liu, C Shen, X Yan, J Guo, ... Journal of Materials Chemistry C 4 (20), 4459-4469, 2016 | 217 | 2016 |
| Environment tolerant conductive nanocomposite organohydrogels as flexible strain sensors and power sources for sustainable electronics H Sun, Y Zhao, S Jiao, C Wang, Y Jia, K Dai, G Zheng, C Liu, P Wan, ... Advanced Functional Materials 31 (24), 2101696, 2021 | 202 | 2021 |
| Highly stretchable and durable strain sensor based on carbon nanotubes decorated thermoplastic polyurethane fibrous network with aligned wave-like structure M Ren, Y Zhou, Y Wang, G Zheng, K Dai, C Liu, C Shen Chemical Engineering Journal 360, 762-777, 2019 | 201 | 2019 |
| Asymmetric conductive polymer composite foam for absorption dominated ultra-efficient electromagnetic interference shielding with extremely low reflection characteristics H Duan, H Zhu, J Gao, DX Yan, K Dai, Y Yang, G Zhao, Y Liu, ZM Li Journal of Materials Chemistry A 8 (18), 9146-9159, 2020 | 200 | 2020 |
| A comparison between strain sensing behaviors of carbon black/polypropylene and carbon nanotubes/polypropylene electrically conductive composites J Zhao, K Dai, C Liu, G Zheng, B Wang, C Liu, J Chen, C Shen Composites Part A: Applied Science and Manufacturing 48, 129-136, 2013 | 192 | 2013 |
