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approach of cementite nanoparticles encapsulated with nitrogen-doped graphitic shells as anode nanomaterials for Li-ion and Na-ion batteries
Novel Fe 3 C nanoparticles encapsulated with nitrogen-doped graphitic shells were synthesized by floating catalytic pyrolysis. Due to the short synthesis time and controllable pyrolytic temperature, the diameters of Fe 3 C core nanoparticles ranged from 5 to 15 nm (Fe 3 C@NGS900 prepared at 900 °C)...
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| Published in: | RSC advances 2018-09, Vol.8 (58), p.333-3334 |
|---|---|
| Main Authors: | , , , , , |
| Format: | Article |
| Language: | |
| Online Access: | Get full text |
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| Summary: | Novel Fe
3
C nanoparticles encapsulated with nitrogen-doped graphitic shells were synthesized by floating catalytic pyrolysis. Due to the short synthesis time and controllable pyrolytic temperature, the diameters of Fe
3
C core nanoparticles ranged from 5 to 15 nm (Fe
3
C@NGS900 prepared at 900 °C) and the average thickness of N-doped graphitic shells was ∼1.2 nm, leading to their high electrochemical performance: specific capacity of 1300 mA h g
−1
at current density 0.2 A g
−1
, outstanding rate capability of 939 mA h g
−1
at 3 A g
−1
, improved initial coulombic efficiency (Fe
3
C@NGS900: 72.1%
vs.
NGS900 (pure graphitic shells): 52%) for lithium ion batteries (LIBs), and impressive long-term cycle performance (1399 mA h g
−1
maintained at 3 A g
−1
after 500 cycles for LIBs; 214 mA h g
−1
maintained at 1 A g
−1
after 500 cycles for sodium ion batteries).
Novel Fe
3
C nanoparticles encapsulated with nitrogen-doped graphitic shells were synthesized by floating catalytic pyrolysis. |
|---|---|
| ISSN: | 2046-2069 |
| DOI: | 10.1039/c8ra05544k |