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Evolution of the effect of sulfur confinement in graphene-based porous carbons for use in Li-S batteries
- Evolution of the effect of sulfur confinement in graphene-based porous carbons for use in Li-S batteries
- Jia, XL[Jia, Xiangling]; Zhang, C[Zhang, Chen]; Liu, JJ[Liu, Juanjuan]; Lv, W[Lv, Wei]; Wang, DW[Wang, Da-Wei]; Tao, Y[Tao, Ying]; Li, ZJ[Li, Zhengjie]; Zheng, XY[Zheng, Xiaoyu]; Yu, JS[Yu, Jong-Sung]; Yang, QH[Yang, Quan-Hong]
- DGIST Authors
- Yu, JS[Yu, Jong-Sung]
- Issue Date
- Nanoscale, 8(8), 4447-4451
- Article Type
- 3D Graphene; Carbon; Carbon Material; Cycling Performance; Electric Batteries; Graphene; Lithium Batteries; Non-Destructive Control; Porous Carbons; Porous Materials; Secondary Batteries; Structure Dependent
- A controllable drying strategy is proposed for the precise and non-destructive control over the structure of a 3D graphene assembly. Such an assembly is used as a model carbon material to investigate the pore structure-dependent shuttle effect and cycling performance of the cathode of a Li-S battery. © The Royal Society of Chemistry 2016.
- Royal Society of Chemistry
- Related Researcher
Light, Salts and Water Research Group
Materials chemistry; nanomaterials; electrochemistry; carbon and porous materials; fuel cell; battery; supercapacitor; sensor and photochemical catalyst
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- Department of Energy Science and EngineeringLight, Salts and Water Research Group1. Journal Articles
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