Lithium metal anodes for rechargeable batteries W Xu, J Wang, F Ding, X Chen, E Nasybulin, Y Zhang, JG Zhang Energy & Environmental Science 7 (2), 513-537, 2014 | 4529 | 2014 |
A novel conductive polymer–sulfur composite cathode material for rechargeable lithium batteries J Wang, J Yang, J Xie, N Xu Advanced materials 14 (13‐14), 963-965, 2002 | 877 | 2002 |
Sulfur composite cathode materials for rechargeable lithium batteries J Wang, J Yang, C Wan, K Du, J Xie, N Xu Advanced Functional Materials 13 (6), 487-492, 2003 | 642 | 2003 |
Polyacrylonitrile/graphene composite as a precursor to a sulfur-based cathode material for high-rate rechargeable Li–S batteries L Yin, J Wang, F Lin, J Yang, Y Nuli Energy & Environmental Science 5 (5), 6966-6972, 2012 | 537 | 2012 |
Novel three-dimensional mesoporous silicon for high power lithium-ion battery anode material H Jia, P Gao, J Yang, J Wang, Y Nuli, Z Yang Advanced Energy Materials 1, 2011 | 448 | 2011 |
Highly reversible and rechargeable safe Zn batteries based on a triethyl phosphate electrolyte A Naveed, H Yang, J Yang, Y Nuli, J Wang Angewandte Chemie International Edition 58 (9), 2760-2764, 2019 | 441 | 2019 |
Sulfur–carbon nano-composite as cathode for rechargeable lithium battery based on gel electrolyte JL Wang, J Yang, JY Xie, NX Xu, Y Li Electrochemistry Communications 4 (6), 499-502, 2002 | 430 | 2002 |
Highly Crystallized Na2CoFe(CN)6 with Suppressed Lattice Defects as Superior Cathode Material for Sodium-Ion Batteries X Wu, C Wu, C Wei, L Hu, J Qian, Y Cao, X Ai, J Wang, H Yang ACS applied materials & interfaces 8 (8), 5393-5399, 2016 | 425 | 2016 |
Silicon microparticle anodes with self-healing multiple network binder Z Xu, J Yang, T Zhang, Y Nuli, J Wang, S Hirano Joule 2 (5), 950-961, 2018 | 407 | 2018 |
Nanosheet-constructed porous TiO2-B for advanced lithium ion batteries. S Liu, H Jia, L Han, J Wang, P Gao, D Xu, J Yang, S Che Advanced materials (Deerfield Beach, Fla.) 24 (24), 3201-3204, 2012 | 405 | 2012 |
Novel dual-salts electrolyte solution for dendrite-free lithium-metal based rechargeable batteries with high cycle reversibility R Miao, J Yang, X Feng, H Jia, J Wang, Y Nuli Journal of Power Sources 271, 291-297, 2014 | 355 | 2014 |
Sulfur‐based composite cathode materials for high‐energy rechargeable lithium batteries J Wang, YS He, J Yang Advanced materials 27 (3), 569-575, 2015 | 343 | 2015 |
Carbonyl‐¥â‐Cyclodextrin as a Novel Binder for Sulfur Composite Cathodes in Rechargeable Lithium Batteries J Wang, Z Yao, CW Monroe, J Yang, Y Nuli Advanced Functional Materials 23 (9), 1194-1201, 2013 | 281 | 2013 |
High‐Rate LiFePO4 Electrode Material Synthesized by a Novel Route from FePO4¡¤ 4H2O Y Wang, J Wang, J Yang, Y Nuli Advanced Functional Materials 16 (16), 2135-2140, 2006 | 272 | 2006 |
A new ether-based electrolyte for dendrite-free lithium-metal based rechargeable batteries R Miao, J Yang, Z Xu, J Wang, Y Nuli, L Sun Scientific reports 6 (1), 1-9, 2016 | 245 | 2016 |
Recent progress and perspective on lithium metal anode protection H Yang, C Guo, A Naveed, J Lei, J Yang, Y Nuli, J Wang Energy Storage Materials 14, 199-221, 2018 | 241 | 2018 |
A novel pyrolyzed polyacrylonitrile-sulfur@ MWCNT composite cathode material for high-rate rechargeable lithium/sulfur batteries L Yin, J Wang, J Yang, Y Nuli Journal of Materials Chemistry 21 (19), 6807-6810, 2011 | 238 | 2011 |
Room temperature Na/S batteries with sulfur composite cathode materials J Wang, J Yang, Y Nuli, R Holze Electrochemistry communications 9 (1), 31-34, 2007 | 231 | 2007 |
CNT enhanced sulfur composite cathode material for high rate lithium battery W Wei, J Wang, L Zhou, J Yang, B Schumann, Y NuLi Electrochemistry Communications 13 (5), 399-402, 2011 | 214 | 2011 |
Towards a safe lithium–sulfur battery with a flame‐inhibiting electrolyte and a sulfur‐based composite cathode J Wang, F Lin, H Jia, J Yang, CW Monroe, Y NuLi Angewandte Chemie International Edition 53 (38), 10099-10104, 2014 | 196 | 2014 |