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Article Abstract
N-doped porous carbon materials are promising potassium-ion battery anodes for overcoming the depressing rate performance and poor cycling stability issues associated with the oversized radius of K-ion. However, the relatively low initial coulombic efficiency (ICE) as a result of porous structure and doped heteroatoms may limit the future application of potassium-ion batteries. Herein, a novel N-doped porous graphite-like carbon armored with dense amorphous shell is synthesized through a Trojan horse strategy by etching and doping the carbon matrix from inside out using oxidized coal tar pitch coated CN as precursor. The N-doped porous interior, which endows anode outstanding rate performance (156.5 mAh g at 10 A g) and superior reversible capacity (412.3 mAh g at 0.05 A g), is isolated from the electrolyte by the external dense shell to gain a high ICE of 62.6%. In addition, the integrated structure mitigates the risk of phase separation between the shell and core, thereby high-current stability over 6000 cycles obtained. This work shed a new light on the fabrication of the well-balanced carbon anodes to meet the demand of the future PIBs industry.
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