| Challenges in developing direct carbon fuel cells C Jiang, J Ma, G Corre, SL Jain, JTS Irvine Chemical Society Reviews 46 (10), 2889-2912, 2017 | 193 | 2017 |
| A high-performance ammonia-fueled SOFC based on a YSZ thin-film electrolyte Q Ma, J Ma, S Zhou, R Yan, J Gao, G Meng Journal of Power Sources 164 (1), 86-89, 2007 | 178 | 2007 |
| Comparative study on the performance of a SDC-based SOFC fueled by ammonia and hydrogen G Meng, C Jiang, J Ma, Q Ma, X Liu Journal of Power Sources 173 (1), 189-193, 2007 | 177 | 2007 |
| Demonstration of high power, direct conversion of waste-derived carbon in a hybrid direct carbon fuel cell C Jiang, J Ma, AD Bonaccorso, JTS Irvine Energy & Environmental Science 5 (5), 6973-6980, 2012 | 153 | 2012 |
| Electrochemical characteristics of lithium vanadate, Li3VO4 as a new sort of anode material for Li-ion batteries S Ni, X Lv, J Ma, X Yang, L Zhang Journal of Power Sources 248, 122-129, 2014 | 116 | 2014 |
| Approaching the Theoretical Capacity of Li3VO4 via Electrochemical Reconstruction S Ni, J Zhang, J Ma, X Yang, L Zhang, X Li, H Zeng Advanced Materials Interfaces 3 (1), 1500340, 2016 | 111 | 2016 |
| A novel electrochemical reconstruction in nickel oxide nanowalls on Ni foam and the fine electrochemical performance as anode for lithium ion batteries S Ni, X Lv, J Ma, X Yang, L Zhang Journal of Power Sources 270, 564-568, 2014 | 97 | 2014 |
| Excellent electrochemical performance of NiV 3 O 8/natural graphite anodes via novel in situ electrochemical reconstruction S Ni, J Ma, J Zhang, X Yang, L Zhang Chemical Communications 51 (27), 5880-5882, 2015 | 80 | 2015 |
| The fine electrochemical performance of porous Cu 3 P/Cu and the high energy density of Cu 3 P as anode for Li-ion batteries S Ni, J Ma, X Lv, X Yang, L Zhang Journal of Materials Chemistry A 2 (48), 20506-20509, 2014 | 75 | 2014 |
| The electrochemical performance of lithium vanadate/natural graphite composite material as anode for lithium ion batteries S Ni, X Lv, J Zhang, J Ma, X Yang, L Zhang Electrochimica Acta 145, 327-334, 2014 | 71 | 2014 |
| Li3VO4/N-doped graphene with high capacity and excellent cycle stability as anode for lithium ion batteries S Ni, J Zhang, J Ma, X Yang, L Zhang Journal of Power Sources 296, 377-382, 2015 | 70 | 2015 |
| Electrochemical performance of cobalt vanadium oxide/natural graphite as anode for lithium ion batteries S Ni, J Ma, J Zhang, X Yang, L Zhang Journal of Power Sources 282, 65-69, 2015 | 69 | 2015 |
| The fabrication of Li3VO4/Ni composite material and its electrochemical performance as anode for Li-ion battery S Ni, X Lv, J Ma, X Yang, L Zhang Electrochimica Acta 130, 800-804, 2014 | 67 | 2014 |
| Stable, easily sintered BaCe0. 5Zr0. 3Y0. 16Zn0. 04O3− δ electrolyte-based protonic ceramic membrane fuel cells with Ba0. 5Sr0. 5Zn0. 2Fe0. 8O3− δ perovskite cathode B Lin, M Hu, J Ma, Y Jiang, S Tao, G Meng Journal of power sources 183 (2), 479-484, 2008 | 62 | 2008 |
| High capacity and superlong cycle life of Li3VO4/N–C hybrids as anode for high performance Li-ion batteries J Zhang, S Ni, J Ma, X Yang, L Zhang Journal of Power Sources 301, 41-46, 2016 | 61 | 2016 |
| Highly efficient, coking-resistant SOFCs for energy conversion using biogas fuels J Ma, C Jiang, PA Connor, M Cassidy, JTS Irvine Journal of Materials Chemistry A 3 (37), 19068-19076, 2015 | 61 | 2015 |
| Superior electrochemical performance of Li 3 VO 4/N-doped C as an anode for Li-ion batteries S Ni, J Zhang, J Ma, X Yang, L Zhang Journal of Materials Chemistry A 3 (35), 17951-17955, 2015 | 60 | 2015 |
| The charge/discharge mechanism and electrochemical performance of CuV 2 O 6 as a new anode material for Li-ion batteries J Ma, S Ni, J Zhang, X Yang, L Zhang Physical Chemistry Chemical Physics 17 (33), 21442-21447, 2015 | 41 | 2015 |
| Lithium and potassium storage behavior comparison for porous nanoflaked Co3O4 anode in lithium-ion and potassium-ion batteries J Wen, L Xu, J Wang, Y Xiong, J Ma, C Jiang, L Cao, J Li, M Zeng Journal of Power Sources 474, 228491, 2020 | 37 | 2020 |
| Electrochemical performance of a solid oxide fuel cell based on Ce0. 8Sm0. 2O2− δ electrolyte synthesized by a polymer assisted combustion method C Jiang, J Ma, X Liu, G Meng Journal of power sources 165 (1), 134-137, 2007 | 36 | 2007 |
