Author
Listed:
- Runwei Mo
(University of California)
- Fan Li
(University of California)
- Xinyi Tan
(University of California)
- Pengcheng Xu
(University of California)
- Ran Tao
(University of California)
- Gurong Shen
(University of California)
- Xing Lu
(University of California)
- Fang Liu
(University of California)
- Li Shen
(University of California)
- Bin Xu
(Jilin University)
- Qiangfeng Xiao
(General Motors Research and Development Center)
- Xiang Wang
(Environmental Molecular Sciences Laboratory, Pacific Northwest National Laboratory)
- Chongmin Wang
(Environmental Molecular Sciences Laboratory, Pacific Northwest National Laboratory)
- Jinlai Li
(ENN Group, Langfang)
- Ge Wang
(University of Science and Technology Beijing)
- Yunfeng Lu
(University of California)
Abstract
The application of graphene for electrochemical energy storage has received tremendous attention; however, challenges remain in synthesis and other aspects. Here we report the synthesis of high-quality, nitrogen-doped, mesoporous graphene particles through chemical vapor deposition with magnesium-oxide particles as the catalyst and template. Such particles possess excellent structural and electrochemical stability, electronic and ionic conductivity, enabling their use as high-performance anodes with high reversible capacity, outstanding rate performance (e.g., 1,138 mA h g−1 at 0.2 C or 440 mA h g−1 at 60 C with a mass loading of 1 mg cm−2), and excellent cycling stability (e.g., >99% capacity retention for 500 cycles at 2 C with a mass loading of 1 mg cm−2). Interestingly, thick electrodes could be fabricated with high areal capacity and current density (e.g., 6.1 mA h cm−2 at 0.9 mA cm−2), providing an intriguing class of materials for lithium-ion batteries with high energy and power performance.
Suggested Citation
Runwei Mo & Fan Li & Xinyi Tan & Pengcheng Xu & Ran Tao & Gurong Shen & Xing Lu & Fang Liu & Li Shen & Bin Xu & Qiangfeng Xiao & Xiang Wang & Chongmin Wang & Jinlai Li & Ge Wang & Yunfeng Lu, 2019.
"High-quality mesoporous graphene particles as high-energy and fast-charging anodes for lithium-ion batteries,"
Nature Communications, Nature, vol. 10(1), pages 1-10, December.
Handle:
RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-09274-y
DOI: 10.1038/s41467-019-09274-y
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