| Spongy graphene as a highly efficient and recyclable sorbent for oils and organic solvents H Bi, X Xie, K Yin, Y Zhou, S Wan, L He, F Xu, F Banhart, L Sun, RS Ruoff Advanced Functional Materials 22 (21), 4421-4425, 2012 | 1043 | 2012 |
| Ultrahigh humidity sensitivity of graphene oxide H Bi, K Yin, X Xie, J Ji, S Wan, L Sun, M Terrones, MS Dresselhaus Scientific reports 3 (1), 2714, 2013 | 706 | 2013 |
| Graphene-based sensors for human health monitoring H Huang, S Su, N Wu, H Wan, S Wan, H Bi, L Sun Frontiers in chemistry 7, 399, 2019 | 308 | 2019 |
| Graphene oxide as high-performance dielectric materials for capacitive pressure sensors S Wan, H Bi, Y Zhou, X Xie, S Su, K Yin, L Sun Carbon 114, 209-216, 2017 | 232 | 2017 |
| Large-range control of the microstructures and properties of three-dimensional porous graphene X Xie, Y Zhou, H Bi, K Yin, S Wan, L Sun Scientific reports 3 (1), 2117, 2013 | 200 | 2013 |
| Highly enhanced performance of spongy graphene as an oil sorbent H Bi, X Xie, K Yin, Y Zhou, S Wan, RS Ruoff, L Sun Journal of Materials Chemistry A 2 (6), 1652-1656, 2014 | 131 | 2014 |
| Graphene and carbon-based nanomaterials as highly efficient adsorbents for oils and organic solvents S Wan, H Bi, L Sun Nanotechnology Reviews 5 (1), 3-22, 2016 | 61 | 2016 |
| A highly skin‐conformal and biodegradable graphene‐based strain sensor S Wan, Z Zhu, K Yin, S Su, H Bi, T Xu, H Zhang, Z Shi, L He, L Sun Small Methods 2 (10), 1700374, 2018 | 60 | 2018 |
| Microscopic bimetallic actuator based on a bilayer of graphene and graphene oxide H Bi, K Yin, X Xie, Y Zhou, S Wan, F Banhart, L Sun Nanoscale 5 (19), 9123-9128, 2013 | 56 | 2013 |
| Electrode materials for brain–machine interface: A review N Wu, S Wan, S Su, H Huang, G Dou, L Sun InfoMat 3 (11), 1174-1194, 2021 | 47 | 2021 |
| Preparation of nitrogen-doped porous carbon via adsorption-doping for highly efficient energy storage H Jia, H Zhang, S Wan, J Sun, X Xie, L Sun Journal of Power Sources 433, 226712, 2019 | 36 | 2019 |
| A general and facile method for preparation of large-scale reduced graphene oxide films with controlled structures H Bi, S Wan, X Cao, X Wu, Y Zhou, K Yin, S Su, Q Ma, M Sindoro, J Zhu, ... Carbon 143, 162-171, 2019 | 35 | 2019 |
| A transient dual-type sensor based on MXene/cellulose nanofibers composite for intelligent sedentary and sitting postures monitoring H Huang, Y Dong, S Wan, J Shen, C Li, L Han, G Dou, L Sun Carbon 200, 327-336, 2022 | 23 | 2022 |
| Ultra-thin electro-spun PAN nanofiber membrane for high-efficient inhalable PM2. 5 particles filtration S Su, JL Li, L Zhou, S Wan, HC Bi, Q Ma, LT Sun Journal of Nano Research 46, 73-81, 2017 | 22 | 2017 |
| Highly stretchable starch hydrogel wearable patch for electrooculographic signal detection and human–machine interaction S Wan, N Wu, Y Ye, S Li, H Huang, L Chen, H Bi, L Sun Small Structures 2 (12), 2100105, 2021 | 19 | 2021 |
| Wet-adhesive multifunctional hydrogel with anti-swelling and a skin-seamless interface for underwater electrophysiological monitoring and communication H Huang, J Shen, S Wan, L Han, G Dou, L Sun ACS Applied Materials & Interfaces 15 (9), 11549-11562, 2023 | 18 | 2023 |
| Sub-4 nm nanodiamonds from graphene-oxide and nitrated polycyclic aromatic hydrocarbons at 423 K Y Shen, S Su, W Zhao, S Cheng, T Xu, K Yin, L Chen, L He, Y Zhou, H Bi, ... ACS nano 15 (11), 17392-17400, 2021 | 15 | 2021 |
| Directional sweat transport and breathable sandwiched electrodes for electrocardiogram monitoring system H Huang, N Wu, H Liu, Y Dong, L Han, S Wan, G Dou, L Sun Advanced Materials Interfaces 9 (4), 2101602, 2022 | 12 | 2022 |
| Fullerene growth from encapsulated graphene flakes W Neng, L Shuang-Ying, X Jun, M Matteo, Z Yi-Long, W Shu, S Li-Tao, ... Nanoscale 6 (19), 11213-11218, 2014 | 10 | 2014 |
| Mechanical wind sensor based on additive manufacturing technology Y Ye, S Wan, S Li, X He IEEE Transactions on Instrumentation and Measurement 71, 1-8, 2022 | 7 | 2022 |
Litao SunProfessor, Southeast University在 seu.edu.cn 的电子邮件经过验证
