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• W3167138545 endingPage "160834" @default.
• W3167138545 startingPage "160834" @default.
• W3167138545 abstract "SnS2 has been identified as an up-and-coming anode candidate for lithium-ion batteries (LIBs) with its high theoretical capacity. Nevertheless, the material's rate performance and stability properties during actual cycling are still constrained by the striking volume expansion and weak ions dynamics. Thus, we upgrade a novel nitrogen-doped strategy based on MOFs materials to solve the above problem. The nitrogen source is successfully introduced under vacuum conditions by using different N-containing organic ligands to replace the position of the solvent sites on the MOF clusters. Finally, the material was obtained by high-temperature vulcanization under vacuum conditions, which retained the like-hexahedral carbon skeleton of the precursor to suppress volume expansion effectively. The introduction of nitrogen not only enhances the mechanical capability of the carbon skeleton but also enhances the electrical conductivity of the material. The SnS2/C-NB composites exhibit excellent cycle stability (maintains 1080.1 mAh g−1 for 200 cycles at 100 mA g−1, which stays at 84.1%; maintains 660.2 mAh g−1 for 200 cycles at 1000 mA g−1, which stays at 82.5%) with the synergistic protection of nitrogen-doped/carbon-coated and shorter ions/electrons transfer channels. The present work provides a new idea for the preparation of nitrogen-doped materials to enhance the cycling stability and rate performance of LIBs." @default.
• W3167138545 created "2021-06-22" @default.
• W3167138545 creator A5021011239 @default.
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• W3167138545 creator A5066918157 @default.
• W3167138545 creator A5077558876 @default.
• W3167138545 creator A5081239304 @default.
• W3167138545 date "2021-11-01" @default.
• W3167138545 modified "2023-10-16" @default.
• W3167138545 title "A novel SnS2 nanomaterial based on nitrogen-doped cubic-like carbon skeleton with excellent lithium storage" @default.
• W3167138545 cites W1748242565 @default.
• W3167138545 cites W1750921370 @default.
• W3167138545 cites W1965643305 @default.
• W3167138545 cites W1966410308 @default.
• W3167138545 cites W1968780456 @default.
• W3167138545 cites W1979430029 @default.
• W3167138545 cites W1981221248 @default.
• W3167138545 cites W1984807959 @default.
• W3167138545 cites W1991141364 @default.
• W3167138545 cites W2007220225 @default.
• W3167138545 cites W2007863770 @default.
• W3167138545 cites W2016365520 @default.
• W3167138545 cites W2044241088 @default.
• W3167138545 cites W2048505629 @default.
• W3167138545 cites W2048983951 @default.
• W3167138545 cites W2067245877 @default.
• W3167138545 cites W2069462334 @default.
• W3167138545 cites W2069710819 @default.
• W3167138545 cites W2075731879 @default.
• W3167138545 cites W2086659677 @default.
• W3167138545 cites W2106680305 @default.
• W3167138545 cites W2125658152 @default.
• W3167138545 cites W2140462678 @default.
• W3167138545 cites W2140746559 @default.
• W3167138545 cites W2152674933 @default.
• W3167138545 cites W2161321968 @default.
• W3167138545 cites W2161863949 @default.
• W3167138545 cites W2185924301 @default.
• W3167138545 cites W2194987262 @default.
• W3167138545 cites W2256978319 @default.
• W3167138545 cites W2319629253 @default.
• W3167138545 cites W2371893820 @default.
• W3167138545 cites W2463532845 @default.
• W3167138545 cites W2466531592 @default.
• W3167138545 cites W2512656955 @default.
• W3167138545 cites W2526538617 @default.
• W3167138545 cites W2590750540 @default.
• W3167138545 cites W2601237360 @default.
• W3167138545 cites W2768776798 @default.
• W3167138545 cites W2779022438 @default.
• W3167138545 cites W2785790334 @default.
• W3167138545 cites W2790139195 @default.
• W3167138545 cites W2795825333 @default.
• W3167138545 cites W2796032804 @default.
• W3167138545 cites W2811134223 @default.
• W3167138545 cites W2883055050 @default.
• W3167138545 cites W2885844631 @default.
• W3167138545 cites W2889639094 @default.
• W3167138545 cites W2902254859 @default.
• W3167138545 cites W2903179216 @default.
• W3167138545 cites W2903672461 @default.
• W3167138545 cites W2907986885 @default.
• W3167138545 cites W2933738344 @default.
• W3167138545 cites W2946701509 @default.
• W3167138545 cites W2950155334 @default.
• W3167138545 cites W2951476135 @default.
• W3167138545 cites W2963045867 @default.
• W3167138545 cites W2967206409 @default.
• W3167138545 cites W2971297812 @default.
• W3167138545 cites W2972183217 @default.
• W3167138545 cites W2975199333 @default.
• W3167138545 cites W2979241344 @default.
• W3167138545 cites W2984348655 @default.
• W3167138545 cites W2993626887 @default.
• W3167138545 cites W2999299686 @default.
• W3167138545 cites W3009567300 @default.
• W3167138545 cites W3012004949 @default.
• W3167138545 cites W3013692059 @default.
• W3167138545 cites W3024995119 @default.
• W3167138545 cites W3031849014 @default.
• W3167138545 cites W3033915652 @default.
• W3167138545 cites W3035687222 @default.
• W3167138545 cites W3038794666 @default.
• W3167138545 cites W3041073184 @default.
• W3167138545 cites W3047384376 @default.
• W3167138545 cites W3047569122 @default.
• W3167138545 cites W3092504489 @default.
• W3167138545 cites W3094645454 @default.
• W3167138545 cites W3094987742 @default.
• W3167138545 cites W3098928268 @default.
• W3167138545 cites W3111652980 @default.
• W3167138545 cites W981342032 @default.
• W3167138545 doi "https://doi.org/10.1016/j.jallcom.2021.160834" @default.
• W3167138545 hasPublicationYear "2021" @default.
• W3167138545 type Work @default.
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