| Comment on “Water-driven programmable polyurethane shape memory polymer: Demonstration and mechanism”[Appl. Phys. Lett. 86, 114105 (2005)] H Lu, Y Liu, J Leng, S Du Applied Physics Letters 97 (5), 056101-056101-2, 2010 | 774* | 2010 |
| Comment on “Water-driven programable polyurethane shape memory polymer: Demonstration and mechanism”[Appl. Phys. Lett.[bold 86], 114105 (2005)] J Leng, H Lv, Y Liu, S Du Applied Physics Letters 92, 206105, 2008 | 761* | 2008 |
| Review of electro-active shape-memory polymer composite Y Liu, H Lv, X Lan, J Leng, S Du Composites Science and Technology 69 (13), 2064-2068, 2009 | 597 | 2009 |
| Fiber reinforced shape-memory polymer composite and its application in a deployable hinge X Lan, Y Liu, H Lv, X Wang, J Leng, S Du Smart Materials and Structures 18 (2), 024002, 2009 | 594 | 2009 |
| Achieving battery-level energy density by constructing aqueous carbonaceous supercapacitors with hierarchical porous N-rich carbon materials M Yang, Y Zhong, J Bao, X Zhou, J Wei, Z Zhou Journal of Materials Chemistry A 3 (21), 11387-11394, 2015 | 530* | 2015 |
| Electroactivate shape-memory polymer filled with nanocarbon particles and short carbon fibers J Leng, H Lv, Y Liu, S Du Applied Physics Letters 91 (14), 144105-144105-3, 2007 | 342 | 2007 |
| Shape-memory polymers—a class of novel smart materials J Leng, H Lu, Y Liu, WM Huang, S Du MRS bulletin 34 (11), 848-855, 2009 | 276 | 2009 |
| Shape‐Memory Polymer in Response to Solution H Lv, J Leng, Y Liu, S Du Advanced Engineering Materials 10 (6), 592-595, 2008 | 254 | 2008 |
| From 3D to 4D printing: approaches and typical applications Y Zhou, WM Huang, SF Kang, XL Wu, HB Lu, J Fu, H Cui Journal of Mechanical Science and Technology 29, 4281-4288, 2015 | 237 | 2015 |
| Shaping tissue with shape memory materials WM Huang, CL Song, YQ Fu, CC Wang, Y Zhao, H Purnawali, HB Lu, ... Advanced Drug Delivery Reviews, 2012 | 234 | 2012 |
| 3D printing of auxetic metamaterials with digitally reprogrammable shape M Lei, W Hong, Z Zhao, C Hamel, M Chen, H Lu, HJ Qi ACS applied materials & interfaces 11 (25), 22768-22776, 2019 | 211 | 2019 |
| Significantly improving infrared light-induced shape recovery behavior of shape memory polymeric nanocomposite via a synergistic effect of carbon nanotube and boron nitride H Lu, Y Yao, WM Huang, J Leng, D Hui Composites Part B: Engineering 62, 256-261, 2014 | 171 | 2014 |
| Synergic effect of carbon black and short carbon fiber on shape memory polymer actuation by electricity J Leng, H Lv, Y Liu, S Du Journal of applied physics 104 (10), 104917-104917-4, 2008 | 155 | 2008 |
| Synergistic effect of carbon nanofiber and carbon nanopaper on shape memory polymer composite H Lu, Y Liu, J Gou, J Leng, S Du Applied Physics Letters 96 (8), 084102-084102-3, 2010 | 147 | 2010 |
| A phenomenological thermodynamic model for the chemo-responsive shape memory effect in polymers based on Flory–Huggins solution theory H Lu, S Du Polymer Chemistry 5 (4), 1155-1162, 2014 | 141 | 2014 |
| Qualitative separation of the physical swelling effect on the recovery behavior of shape memory polymer H Lu, Y Liu, J Leng, S Du European Polymer Journal 46 (9), 1908-1914, 2010 | 128 | 2010 |
| Advanced shape memory technology to reshape product design, manufacturing and recycling WG Yang, H Lu, WM Huang, HJ Qi, XL Wu, KY Sun Polymers 6 (8), 2287-2308, 2014 | 126 | 2014 |
| Mechanical and shape‐memory behavior of shape‐memory polymer composites with hybrid fillers H Lu, K Yu, S Sun, Y Liu, J Leng Polymer International 59 (6), 766-771, 2010 | 126 | 2010 |
| Noncovalently functionalized carbon fiber by grafted self-assembled graphene oxide and the synergistic effect on polymeric shape memory nanocomposites H Lu, Y Yao, WM Huang, D Hui Composites Part B: Engineering 67, 290-295, 2014 | 116 | 2014 |
| Nanopaper enabled shape-memory nanocomposite with vertically aligned nickel nanostrand: controlled synthesis and electrical actuation H Lu, F Liang, J Gou Soft Matter 7 (16), 7416-7423, 2011 | 115 | 2011 |