| Metal–air batteries with high energy density: Li–air versus Zn–air JS Lee, S Tai Kim, R Cao, NS Choi, M Liu, KT Lee, J Cho Advanced Energy Materials 1 (1), 34-50, 2011 | 2465 | 2011 |
| Spindle-like Mesoporous α-Fe2O3 Anode Material Prepared from MOF Template for High-Rate Lithium Batteries X Xu, R Cao, S Jeong, J Cho Nano letters 12 (9), 4988-4991, 2012 | 974 | 2012 |
| Stable cycling of high-voltage lithium metal batteries in ether electrolytes S Jiao, X Ren, R Cao, MH Engelhard, Y Liu, D Hu, D Mei, J Zheng, ... Nature Energy 3 (9), 739-746, 2018 | 938 | 2018 |
| Recent progress in non‐precious catalysts for metal‐air batteries R Cao, JS Lee, M Liu, J Cho Advanced Energy Materials 2 (7), 816-829, 2012 | 780 | 2012 |
| Promotion of oxygen reduction by a bio-inspired tethered iron phthalocyanine carbon nanotube-based catalyst R Cao, R Thapa, H Kim, X Xu, M Gyu Kim, Q Li, N Park, M Liu, J Cho Nature communications 4 (1), 2076, 2013 | 732 | 2013 |
| Anodes for rechargeable lithium‐sulfur batteries R Cao, W Xu, D Lv, J Xiao, JG Zhang Advanced Energy Materials 5 (16), 1402273, 2015 | 521 | 2015 |
| Graphene/graphene-tube nanocomposites templated from cage-containing metal-organic frameworks for oxygen reduction in Li-O₂ batteries. Q Li, P Xu, W Gao, S Ma, G Zhang, R Cao, J Cho, HL Wang, G Wu Advanced Materials (Deerfield Beach, Fla.) 26 (9), 1378-1386, 2013 | 459 | 2013 |
| Nanocarbon electrocatalysts for oxygen reduction in alkaline media for advanced energy conversion and storage Q Li, R Cao, J Cho, G Wu Advanced energy materials 4 (6), 1301415, 2014 | 430 | 2014 |
| Dendrite-free lithium deposition with self-aligned nanorod structure Y Zhang, J Qian, W Xu, SM Russell, X Chen, E Nasybulin, P Bhattacharya, ... Nano letters 14 (12), 6889-6896, 2014 | 404 | 2014 |
| Non-encapsulation approach for high-performance Li–S batteries through controlled nucleation and growth H Pan, J Chen, C Ruiguo, V Murugesan, NN Rajput, KS Han, K Persson, ... Nature Energy, 2017 | 364 | 2017 |
| Real-time mass spectrometric characterization of the solid–electrolyte interphase of a lithium-ion battery Y Zhou, M Su, X Yu, Y Zhang, JG Wang, X Ren, R Cao, W Xu, DR Baer, ... Nature nanotechnology 15 (3), 224-230, 2020 | 343 | 2020 |
| Behavior of lithium metal anodes under various capacity utilization and high current density in lithium metal batteries S Jiao, J Zheng, Q Li, X Li, MH Engelhard, R Cao, JG Zhang, W Xu Joule 2 (1), 110-124, 2018 | 332 | 2018 |
| Ketjenblack carbon supported amorphous manganese oxides nanowires as highly efficient electrocatalyst for oxygen reduction reaction in alkaline solutions JS Lee, GS Park, HI Lee, ST Kim, R Cao, M Liu, J Cho Nano letters 11 (12), 5362-5366, 2011 | 307 | 2011 |
| Enabling room temperature sodium metal batteries R Cao, K Mishra, X Li, J Qian, MH Engelhard, ME Bowden, KS Han, ... Nano Energy 30, 825-830, 2016 | 284 | 2016 |
| Advanced liquid electrolytes for rechargeable Li metal batteries Y Jie, X Ren, R Cao, W Cai, S Jiao Advanced Functional Materials 30 (25), 1910777, 2020 | 249 | 2020 |
| Recent progress in electrocatalysts for acidic water oxidation Z Lei, T Wang, B Zhao, W Cai, Y Liu, S Jiao, Q Li, R Cao, M Liu Advanced energy materials 10 (23), 2000478, 2020 | 246 | 2020 |
| Metal–organic framework‐derived bamboo‐like nitrogen‐doped graphene tubes as an active matrix for hybrid oxygen‐reduction electrocatalysts Q Li, H Pan, D Higgins, R Cao, G Zhang, H Lv, K Wu, J Cho, G Wu Small 11 (12), 1443-1452, 2015 | 235 | 2015 |
| Long term stability of Li-S batteries using high concentration lithium nitrate electrolytes BD Adams, EV Carino, JG Connell, KS Han, R Cao, J Chen, J Zheng, Q Li, ... Nano Energy 40, 607-617, 2017 | 201 | 2017 |
| Addressing passivation in lithium–sulfur battery under lean electrolyte condition H Pan, KS Han, MH Engelhard, R Cao, J Chen, JG Zhang, KT Mueller, ... Advanced Functional Materials 28 (38), 1707234, 2018 | 193 | 2018 |
| Enabling high‐voltage lithium metal batteries by manipulating solvation structure in ester electrolyte Y Jie, X Liu, Z Lei, S Wang, Y Chen, F Huang, R Cao, G Zhang, S Jiao Angewandte Chemie 132 (9), 3533-3538, 2020 | 192 | 2020 |