| Crack-free single-crystalline Ni-rich layered NCM cathode enable superior cycling performance of lithium-ion batteries X Fan, G Hu, B Zhang, X Ou, J Zhang, W Zhao, H Jia, L Zou, P Li, Y Yang Nano Energy 70, 104450, 2020 | 513 | 2020 |
| Hierarchical porous silicon structures with extraordinary mechanical strength as high-performance lithium-ion battery anodes H Jia, X Li, J Song, X Zhang, L Luo, Y He, B Li, Y Cai, S Hu, X Xiao, ... Nature communications 11 (1), 1474, 2020 | 473 | 2020 |
| 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 | 453 | 2011 |
| 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 |
| High voltage operation of Ni‐rich NMC cathodes enabled by stable electrode/electrolyte interphases W Zhao, J Zheng, L Zou, H Jia, B Liu, H Wang, MH Engelhard, C Wang, ... Advanced energy materials 8 (19), 1800297, 2018 | 375 | 2018 |
| Best practice: performance and cost evaluation of lithium ion battery active materials with special emphasis on energy efficiency P Meister, H Jia, J Li, R Kloepsch, M Winter, T Placke Chemistry of Materials 28 (20), 7203-7217, 2016 | 373 | 2016 |
| A novel approach to synthesize micrometer-sized porous silicon as a high performance anode for lithium-ion batteries H Jia, J Zheng, J Song, L Luo, R Yi, L Estevez, W Zhao, R Patel, X Li, ... Nano Energy 50, 589-597, 2018 | 264 | 2018 |
| Progressive growth of the solid–electrolyte interphase towards the Si anode interior causes capacity fading Y He, L Jiang, T Chen, Y Xu, H Jia, R Yi, D Xue, M Song, A Genc, ... Nature nanotechnology 16 (10), 1113-1120, 2021 | 237 | 2021 |
| High‐performance silicon anodes enabled by nonflammable localized high‐concentration electrolytes H Jia, L Zou, P Gao, X Cao, W Zhao, Y He, MH Engelhard, SD Burton, ... Advanced Energy Materials 9 (31), 1900784, 2019 | 231 | 2019 |
| Tuning the anode–electrolyte interface chemistry for garnet‐based solid‐state Li metal batteries T Deng, X Ji, Y Zhao, L Cao, S Li, S Hwang, C Luo, P Wang, H Jia, X Fan, ... Advanced Materials 32 (23), 2000030, 2020 | 212 | 2020 |
| High‐power lithium metal batteries enabled by high‐concentration acetonitrile‐based electrolytes with vinylene carbonate additive Z Peng, X Cao, P Gao, H Jia, X Ren, S Roy, Z Li, Y Zhu, W Xie, D Liu, Q Li, ... Advanced Functional Materials 30 (24), 2001285, 2020 | 171 | 2020 |
| Nonflammable electrolytes for lithium ion batteries enabled by ultraconformal passivation interphases X Cao, Y Xu, L Zhang, MH Engelhard, L Zhong, X Ren, H Jia, B Liu, C Niu, ... ACS Energy Letters 4 (10), 2529-2534, 2019 | 144 | 2019 |
| Enhanced stability of Li metal anodes by synergetic control of nucleation and the solid electrolyte interphase Z Peng, J Song, L Huai, H Jia, B Xiao, L Zou, G Zhu, A Martinez, S Roy, ... Advanced Energy Materials 9 (42), 1901764, 2019 | 137 | 2019 |
| Revealing cycling rate-dependent structure evolution in Ni-rich layered cathode materials L Zou, W Zhao, Z Liu, H Jia, J Zheng, G Wang, Y Yang, JG Zhang, ... ACS Energy Letters 3 (10), 2433-2440, 2018 | 129 | 2018 |
| Simultaneous Stabilization of LiNi0.76Mn0.14Co0.10O2 Cathode and Lithium Metal Anode by Lithium Bis(oxalato)borate as Additive W Zhao, L Zou, J Zheng, H Jia, J Song, MH Engelhard, C Wang, W Xu, ... ChemSusChem 11 (13), 2211-2220, 2018 | 102 | 2018 |
| Optimized Al doping improves both interphase stability and bulk structural integrity of Ni-rich NMC cathode materials W Zhao, L Zou, H Jia, J Zheng, D Wang, J Song, C Hong, R Liu, W Xu, ... ACS applied energy materials 3 (4), 3369-3377, 2020 | 98 | 2020 |
| Solid–liquid interfacial reaction trigged propagation of phase transition from surface into bulk lattice of Ni-rich layered cathode L Zou, Z Liu, W Zhao, H Jia, J Zheng, Y Yang, G Wang, JG Zhang, ... Chemistry of Materials 30 (20), 7016-7026, 2018 | 95 | 2018 |
| Unlocking the passivation nature of the cathode–air interfacial reactions in lithium ion batteries L Zou, Y He, Z Liu, H Jia, J Zhu, J Zheng, G Wang, X Li, J Xiao, J Liu, ... Nature communications 11 (1), 3204, 2020 | 93 | 2020 |
| The role of secondary particle structures in surface phase transitions of Ni-rich cathodes L Zou, W Zhao, H Jia, J Zheng, L Li, DP Abraham, G Chen, JR Croy, ... Chemistry of Materials 32 (7), 2884-2892, 2020 | 88 | 2020 |
| Silicon-carbon composite anode material for lithium ion batteries and a preparation method thereof J Yang, P Gao, H Jia, J Wang, N Yanna US Patent 9,663,860, 2017 | 86 | 2017 |
Jianming Zheng (郑建明)Professor, College of Chemistry and Chemical Engineering, Xiamen UniversityVerified email at xmu.edu.cn
