SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2615467487> ?p ?o ?g. }

Showing items 1 to 100 of ±168 with 100 items per page.

W2615467487 endingPage "391" @default.
W2615467487 startingPage "380" @default.
W2615467487 abstract "Abstract As potential alternatives to lithium-ion batteries in grid energy storage application, sodium-ion batteries (SIBs) have attracted tremendous attention. Absence of high-performance anode material remains a challenge to commercialize SIBs. Herein, a SnSbSx/porous carbon nanofiber (SnSbSx/PCNF) composite with superior performance is successfully prepared via electrospinning, followed by a sulfuration treatment. The as-prepared SnSbSx/PCNF composite exhibits a unique two-dimensional nano-sheet morphology. As a result, the SnSbSx/PCNFs can deliver a high reversible capacity of 566.7 mAh g−1 after 80 cycles and achieve good cycling stability and rate capability when used as anode materials for SIBs. The improved electrochemical performance of SnSbSx/PCNFs can be ascribed to the synergistic effects of SnSbSx nano-sheets and enhanced diffusion coefficient of Na+ in sulfurated PCNFs (SPCNFs), which can not only provide good electronic conductivity but also buffer the volume change of the SnSbSx nano-sheets during sodiation/desodiation process. Additionally, the sulfuration process generates a sulfur doping effect on the PCNFs, further enhancing their sodium storage ability. Therefore, the excellent Na-storage ability demonstrates SnSbSx/PCNFs a great potential as anode material for high-performance SIBs." @default.
W2615467487 created "2017-05-26" @default.
W2615467487 creator A5000562139 @default.
W2615467487 creator A5015836233 @default.
W2615467487 creator A5031741004 @default.
W2615467487 creator A5037645589 @default.
W2615467487 creator A5057296315 @default.
W2615467487 creator A5059173582 @default.
W2615467487 creator A5063253432 @default.
W2615467487 creator A5071361024 @default.
W2615467487 date "2017-08-01" @default.
W2615467487 modified "2023-10-06" @default.
W2615467487 title "In-situ formation of tin-antimony sulfide in nitrogen-sulfur Co-doped carbon nanofibers as high performance anode materials for sodium-ion batteries" @default.
W2615467487 cites W1191152476 @default.
W2615467487 cites W1794860159 @default.
W2615467487 cites W1826607494 @default.
W2615467487 cites W1965235283 @default.
W2615467487 cites W1966932843 @default.
W2615467487 cites W1967540866 @default.
W2615467487 cites W1967912378 @default.
W2615467487 cites W1973596377 @default.
W2615467487 cites W1979324008 @default.
W2615467487 cites W1991119355 @default.
W2615467487 cites W1991868884 @default.
W2615467487 cites W1992195138 @default.
W2615467487 cites W1994400031 @default.
W2615467487 cites W1996597102 @default.
W2615467487 cites W2002170845 @default.
W2615467487 cites W2002254398 @default.
W2615467487 cites W2004764445 @default.
W2615467487 cites W2005303486 @default.
W2615467487 cites W2006754945 @default.
W2615467487 cites W2008837311 @default.
W2615467487 cites W2020170268 @default.
W2615467487 cites W2023461274 @default.
W2615467487 cites W2026367793 @default.
W2615467487 cites W2029051990 @default.
W2615467487 cites W2029817687 @default.
W2615467487 cites W2031060820 @default.
W2615467487 cites W2034748924 @default.
W2615467487 cites W2034870447 @default.
W2615467487 cites W2040959430 @default.
W2615467487 cites W2050331167 @default.
W2615467487 cites W2058782338 @default.
W2615467487 cites W2060507002 @default.
W2615467487 cites W2064847648 @default.
W2615467487 cites W2068843362 @default.
W2615467487 cites W2081575777 @default.
W2615467487 cites W2083175128 @default.
W2615467487 cites W2093214835 @default.
W2615467487 cites W2103241359 @default.
W2615467487 cites W2110404509 @default.
W2615467487 cites W2115010843 @default.
W2615467487 cites W2126671291 @default.
W2615467487 cites W2130612878 @default.
W2615467487 cites W2145937601 @default.
W2615467487 cites W2146808423 @default.
W2615467487 cites W2151843030 @default.
W2615467487 cites W2152664881 @default.
W2615467487 cites W2159325994 @default.
W2615467487 cites W2161859410 @default.
W2615467487 cites W2166213662 @default.
W2615467487 cites W2170052611 @default.
W2615467487 cites W2208718338 @default.
W2615467487 cites W2260791627 @default.
W2615467487 cites W2264786926 @default.
W2615467487 cites W2290089545 @default.
W2615467487 cites W2321830669 @default.
W2615467487 cites W2520851564 @default.
W2615467487 cites W2551068341 @default.
W2615467487 cites W2557768556 @default.
W2615467487 cites W2559940560 @default.
W2615467487 cites W3080613005 @default.
W2615467487 doi "https://doi.org/10.1016/j.carbon.2017.05.072" @default.
W2615467487 hasPublicationYear "2017" @default.
W2615467487 type Work @default.
W2615467487 sameAs 2615467487 @default.
W2615467487 citedByCount "69" @default.
W2615467487 countsByYear W26154674872017 @default.
W2615467487 countsByYear W26154674872018 @default.
W2615467487 countsByYear W26154674872019 @default.
W2615467487 countsByYear W26154674872020 @default.
W2615467487 countsByYear W26154674872021 @default.
W2615467487 countsByYear W26154674872022 @default.
W2615467487 countsByYear W26154674872023 @default.
W2615467487 crossrefType "journal-article" @default.
W2615467487 hasAuthorship W2615467487A5000562139 @default.
W2615467487 hasAuthorship W2615467487A5015836233 @default.
W2615467487 hasAuthorship W2615467487A5031741004 @default.
W2615467487 hasAuthorship W2615467487A5037645589 @default.
W2615467487 hasAuthorship W2615467487A5057296315 @default.
W2615467487 hasAuthorship W2615467487A5059173582 @default.
W2615467487 hasAuthorship W2615467487A5063253432 @default.
W2615467487 hasAuthorship W2615467487A5071361024 @default.
W2615467487 hasConcept C104779481 @default.
W2615467487 hasConcept C127413603 @default.
W2615467487 hasConcept C140205800 @default.
W2615467487 hasConcept C145148216 @default.