| Reviving rechargeable lithium metal batteries: enabling next-generation high-energy and high-power cells A Zhamu, G Chen, C Liu, D Neff, Q Fang, Z Yu, W Xiong, Y Wang, X Wang, ... Energy & Environmental Science 5 (2), 5701-5707, 2012 | 328 | 2012 |
| Graphene-enhanced anode particulates for lithium ion batteries A Zhamu, J Shi, G Chen, Q Fang, BZ Jang US Patent 9,558,860, 2017 | 207 | 2017 |
| Nitrogen-enriched ordered mesoporous carbons through direct pyrolysis in ammonia with enhanced capacitive performance X Wang, CG Liu, D Neff, PF Fulvio, RT Mayes, A Zhamu, Q Fang, G Chen, ... Journal of materials chemistry A 1 (27), 7920-7926, 2013 | 135 | 2013 |
| Lithium-ion cell having a high-capacity anode and a high-capacity cathode G Chen, A Zhamu, X Wang, BZ Jang, Y Wang, Q Fang US Patent 9,437,370, 2016 | 134 | 2016 |
| Surface-mediated cells with high power density and high energy density A Zhamu, G Chen, X Wang, BZ Jang, Y Wang, Q Fang US Patent 8,895,189, 2014 | 59 | 2014 |
| Graphite or carbon particulates for the lithium ion battery anode A Zhamu, J Shi, G Chen, Q Fang, BZ Jang, MC Wang US Patent 9,437,344, 2016 | 48 | 2016 |
| Method of operating a lithium-ion cell having a high-capacity cathode G Chen, Y Wang, Q Fang, X Wang, A Zhamu, BZ Jang US Patent 9,673,447, 2017 | 46 | 2017 |
| Rechargeable dual electroplating cell G Chen, Y Wang, Q Fang, BZ Jang, A Zhamu US Patent 11,283,104, 2022 | 38 | 2022 |
| Lithium-ion cell having a high energy density and high power density G Chen, A Zhamu, X Wang, BZ Jang, Y Wang, Q Fang US Patent 8,765,303, 2014 | 24 | 2014 |
| Lithium ion battery anode containing silicon nanowires grown in situ in pores of graphene foam and production process YS Su, J Yin, Q Fang, A Zhamu, BZ Jang US Patent 9,997,784, 2018 | 20 | 2018 |
| Surface-mediated cell-powered vehicles and methods of operating same A Zhamu, G Chen, X Wang, BZ Jang, Y Wang, Q Fang US Patent 8,914,176, 2014 | 17 | 2014 |
| Surface-mediated cell-driven power tools and methods of operating same A Zhamu, G Chen, W Xiong, BZ Jang, Y Wang, Q Fang US Patent 9,085,076, 2015 | 15 | 2015 |
| Graphene-enhanced anode particulates for lithium ion batteries A Zhamu, J Shi, G Chen, Q Fang, BZ Jang US Patent 10,559,811, 2020 | 11 | 2020 |
| Surface-mediated cell-powered portable computing devices and methods of operating same A Zhamu, G Chen, X Wang, BZ Jang, Y Wang, Q Fang US Patent 9,385,539, 2016 | 10 | 2016 |
| Effects of flaky rare earth oxide additives on the high temperature performance of nickel electrodes F Qing, Y Cheng, J Xuyu, ZHU Lei, YU Haijun, W Zhong, L JIANG Journal of Rare Earths 28 (1), 72-78, 2010 | 10 | 2010 |
| Process for producing silicon nanowires directly from silicon particles Q Fang, A Zhamu, BZ Jang US Patent 9,774,033, 2017 | 6 | 2017 |
| Process for mass-producing silicon nanowires and silicon nanowire-graphene hybrid particulates Q Fang, A Zhamu, BZ Jang US Patent 9,601,763, 2017 | 6 | 2017 |
| Effects of nanoscale conductive additives on high temperature and high power performance of nickel electrodes 方庆, 谢守韫, 成艳, 简旭宇, 蒋利军, 朱磊 稀有金属 33 (3), 376-381, 2009 | 5* | 2009 |
| Effects of erbium added by mechanically mixture and surface coating on high temperature performances of nickel hydroxide electrode X Shouyun, F Qing, Y CHENG, J Xuyu, ZHU Lei, W Zhong, YU Haijun Journal of the Chinese Rare Earth Society 5, 010, 2008 | 5* | 2008 |
| Battery having a low output voltage YS Su, M Li, H He, Q Fang, A Zhamu, BZ Jang US Patent 10,868,304, 2020 | 4 | 2020 |
