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W4213304423 abstract "Heterointerface engineering with multiple electroactive and inactive supporting components is considered an efficient approach to enhance electrochemical performance for sodium-ion batteries (SIBs). Nevertheless, it is still a challenge to rationally design heterointerface engineering and understand the synergistic effect reaction mechanisms. In this paper, the two-phase heterointerface engineering (Sb2 S3 and FeS2 ) is well designed to incorporate into N-doped porous hollow carbon nanofibers (Sb-Fe-S@CNFs) by proper electrospinning design. The obtained Sb-Fe-S@CNFs are used as anode in SIBs to evaluate the electrochemical performance. It delivers a reversible capacity of 396 mA h g-1 after 2000 cycles at 1 A g-1 and exhibits an ultra-long high rate cycle life for 16 000 cycles at 10 A g-1 . The admirable electrochemical performance is mainly attributed to the following reasons: The porous carbon nanofibers serve as an accelerator of the electrons/ions and a buffer to alleviate volume expansion upon long cyclic performance. The abundant phase boundaries of Sb2 S3 /FeS2 exert low Na+ adsorption energy and greatly promote the charge transfer in the internal electric field calculated by first-principle density functional theory. Therefore, the as-prepared Sb-Fe-S@CNFs represents a promising candidate for an efficient anode electrode material in SIBs." @default.
W4213304423 created "2022-02-24" @default.
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W4213304423 date "2022-02-12" @default.
W4213304423 modified "2023-10-09" @default.
W4213304423 title "Boosting Fast Sodium Ion Storage by Synergistic Effect of Heterointerface Engineering and Nitrogen Doping Porous Carbon Nanofibers" @default.
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W4213304423 doi "https://doi.org/10.1002/smll.202107514" @default.
W4213304423 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35152556" @default.
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