| 1 |
1T-Phase MoS2 with large layer spacing supported on carbon cloth for high-performance Na+ storage
Wang LN, Wu X, Wang FT, Chen X, Xu J, Huang KJ
Journal of Colloid and Interface Science, 583, 579, 2021 |
| 2 |
Antimony nanocrystals self-encapsulated within bio-oil derived carbon for ultra-stable sodium storage
Qin B, Jia HN, Cai YF, Li MN, Qi J, Cao J, Feng JC
Journal of Colloid and Interface Science, 582, 459, 2021 |
| 3 |
The effect of S-functionalized and vacancies on V2C MXenes as anode materials for Na-ion and Li-ion batteries
Li YM, Guo YL, Jiao ZY
Current Applied Physics, 20(2), 310, 2020 |
| 4 |
첨가제가 나트륨 이온 전지용 고분자전구체 기반 하드카본 음극 표면에 형성되는 고체 전해질 내부상 특성에 미치는 영향
김하영, 윤승욱, 박수봉, 진형준
Polymer(Korea), 44(1), 76, 2020 |
| 5 |
Flexible sodium-ion battery anodes using indium sulfide-based nanohybrid paper electrodes
Choi J, Myung Y, Kim SK
Applied Surface Science, 467, 1040, 2019 |
| 6 |
Extended lattice space of TiO2 hollow nanocubes for improved sodium storage
Feng JZ, Dong YF, Yan YC, Zhao WN, Yang TT, Zheng JT, Li ZT, Wu MB
Chemical Engineering Journal, 373, 565, 2019 |
| 7 |
High performance anode material for sodium-ion batteries derived from covalent-organic frameworks
Zhang YM, Gao ZQ
Electrochimica Acta, 301, 23, 2019 |
| 8 |
V-2(PO4)O encapsulated into crumpled nitrogen-doped graphene as a high-performance anode material for sodium-ion batteries
Xiao B, Zhang WH, Wang PB, Tang LB, An CS, He ZJ, Tong H, Zheng JC, Wang B
Electrochimica Acta, 306, 238, 2019 |
| 9 |
SnS2 nanoparticles anchored on three-dimensional reduced graphene oxide as a durable anode for sodium ion batteries
Zheng J, Xiong XH, Wang GH, Lin ZH, Ou X, Yang CH, Liu ML
Chemical Engineering Journal, 339, 78, 2018 |
| 10 |
Silicon oxycarbide produced from silicone oil for high-performance anode material in sodium ion batteries
Chandra C, Kim J
Chemical Engineering Journal, 338, 126, 2018 |
