Electrochemical properties of graphene paper electrodes used in lithium batteries C Wang, D Li, CO Too, GG Wallace Chemistry of materials 21 (13), 2604-2606, 2009 | 704 | 2009 |
Tunable and efficient tin modified nitrogen‐doped carbon nanofibers for electrochemical reduction of aqueous carbon dioxide Y Zhao, J Liang, C Wang, J Ma, GG Wallace Advanced Energy Materials 8 (10), 1702524, 2018 | 310 | 2018 |
Buckled, stretchable polypyrrole electrodes for battery applications C Wang, W Zheng, Z Yue, CO Too, GG Wallace Advanced materials 31 (23), 3580-3584, 2011 | 283 | 2011 |
The 2021 battery technology roadmap J Ma, Y Li, NS Grundish, JB Goodenough, Y Chen, L Guo, Z Peng, X Qi, ... Journal of Physics D: Applied Physics 54 (18), 183001, 2021 | 275 | 2021 |
Recent advances in Co3O4 as anode materials for high-performance lithium-ion batteries C Hou, B Wang, V Murugadoss, S Vupputuri, Y Chao, Z Guo, C Wang, ... Engineered Science 11 (63), 19-30, 2020 | 240 | 2020 |
Polypyrrole coated nylon lycra fabric as stretchable electrode for supercapacitor applications B Yue, C Wang, X Ding, GG Wallace Electrochimica Acta 68, 18-24, 2012 | 239 | 2012 |
Three dimensional (3D) printed electrodes for interdigitated supercapacitors C Zhao, C Wang, R Gorkin Iii, S Beirne, K Shu, GG Wallace Electrochemistry Communications 41, 20-23, 2014 | 233 | 2014 |
Oxygen-deficient anatase TiO2@C nanospindles with pseudocapacitive contribution for enhancing lithium storage CWJM Xiaolan Deng, Zengxi Wei, Chunyu Cui, Quanhui Liu Journal of Materials Chemistry A 6 (9), 4013-4022, 2018 | 230 | 2018 |
Recent progress in 2D materials for flexible supercapacitors GG Han, Y., Ge, Y., Chao, Y., Wang, C., Wallace Journal of New Energy Chemistry 27 (1), 57-72, 2018 | 220* | 2018 |
Intrinsically stretchable supercapacitors composed of polypyrrole electrodes and highly stretchable gel electrolyte C Zhao, C Wang, Z Yue, K Shu, GG Wallace ACS applied materials & interfaces 5 (18), 9008-9014, 2013 | 220 | 2013 |
Direct growth of flexible carbon nanotube electrodes J Chen, AI Minett, Y Liu, C Lynam, P Sherrell, C Wang, GG Wallace Advanced Materials 20 (3), 566-570, 2008 | 214 | 2008 |
Molybdenum and tungsten chalcogenides for lithium/sodium-ion batteries: Beyond MoS2 J Huang, Z Wei, J Liao, W Ni, C Wang, J Ma Journal of Energy Chemistry 33, 100-124, 2019 | 210 | 2019 |
Superelastic hybrid CNT/graphene fibers for wearable energy storage Z Lu, J Foroughi, C Wang, H Long, GG Wallace Advanced Energy Materials 8 (8), 1702047, 2018 | 205 | 2018 |
Self‐Assembly of Flexible Free‐Standing 3D Porous MoS2‐Reduced Graphene Oxide Structure for High‐Performance Lithium‐Ion Batteries Y Chao, R Jalili, Y Ge, C Wang, T Zheng, K Shu, GG Wallace Advanced Functional Materials 27 (22), 1700234, 2017 | 204 | 2017 |
Electrochemically synthesized polypyrrole/graphene composite film for lithium batteries Y Yang, C Wang, B Yue, S Gambhir, CO Too, GG Wallace Advanced Energy Materials 2 (2), 266-272, 2012 | 190 | 2012 |
A biodegradable thin-film magnesium primary battery using silk fibroin–ionic liquid polymer electrolyte X Jia, C Wang, V Ranganathan, B Napier, C Yu, Y Chao, M Forsyth, ... ACS Energy Letters 2 (4), 831-836, 2017 | 178 | 2017 |
High‐performance graphene‐fiber‐based neural recording microelectrodes K Wang, CL Frewin, D Esrafilzadeh, C Yu, C Wang, JJ Pancrazio, ... Advanced materials 31 (15), 1805867, 2019 | 176 | 2019 |
Porous bowl-shaped VS2 nanosheets/graphene composite for high-rate lithium-ion storage D Wu, C Wang, M Wu, Y Chao, P He, J Ma Journal of Energy Chemistry 43, 24-32, 2020 | 169 | 2020 |
Superior sodium-ion storage performance of Co 3 O 4@ nitrogen-doped carbon: derived from a metal–organic framework Y Wang, C Wang, Y Wang, H Liu, Z Huang Journal of Materials Chemistry A 4 (15), 5428-5435, 2016 | 169 | 2016 |
Fe-doped phosphorene for the nitrogen reduction reaction Z Wei, Y Zhang, S Wang, C Wang, J Ma Journal of Materials Chemistry A 6 (28), 13790-13796, 2018 | 163 | 2018 |