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W2320794405 abstract "Abstract Tin oxide nanoparticles (SnO 2 NPs) have been encapsulated in situ in a three‐dimensional ordered space structure. Within this composite, ordered mesoporous carbon (OMC) acts as a carbon framework showing a desirable ordered mesoporous structure with an average pore size (≈6 nm) and a high surface area (470.3 m 2 g −1 ), and the SnO 2 NPs (≈10 nm) are highly loaded (up to 80 wt %) and homogeneously distributed within the OMC matrix. As an anode material for lithium‐ion batteries, a SnO 2 @OMC composite material can deliver an initial charge capacity of 943 mAh g −1 and retain 68.9 % of the initial capacity after 50 cycles at a current density of 50 mA g −1 , even exhibit a capacity of 503 mA h g −1 after 100 cycles at 160 mA g −1 . In situ encapsulation of the SnO 2 NPs within an OMC framework contributes to a higher capacity and a better cycling stability and rate capability in comparison with bare OMC and OMC ex situ loaded with SnO 2 particles (SnO 2 /OMC). The significantly improved electrochemical performance of the SnO 2 @OMC composite can be attributed to the multifunctional OMC matrix, which can facilitate electrolyte infiltration, accelerate charge transfer, and lithium‐ion diffusion, and act as a favorable buffer to release reaction strains for lithiation/delithiation of the SnO 2 NPs." @default.
W2320794405 created "2016-06-24" @default.
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W2320794405 date "2016-02-25" @default.
W2320794405 modified "2023-10-12" @default.
W2320794405 title "High-Loading Nano-SnO<sub>2</sub> Encapsulated in situ in Three-Dimensional Rigid Porous Carbon for Superior Lithium-Ion Batteries" @default.
W2320794405 cites W1964697542 @default.
W2320794405 cites W1968688409 @default.
W2320794405 cites W1970340739 @default.
W2320794405 cites W1971760556 @default.
W2320794405 cites W1973093769 @default.
W2320794405 cites W1973828259 @default.
W2320794405 cites W1980592665 @default.
W2320794405 cites W1985044664 @default.
W2320794405 cites W1995041236 @default.
W2320794405 cites W1999235718 @default.
W2320794405 cites W2002855928 @default.
W2320794405 cites W2004361354 @default.
W2320794405 cites W2009671662 @default.
W2320794405 cites W2013100151 @default.
W2320794405 cites W2013161402 @default.
W2320794405 cites W2014192876 @default.
W2320794405 cites W2014512753 @default.
W2320794405 cites W2014833194 @default.
W2320794405 cites W2015052121 @default.
W2320794405 cites W2019639626 @default.
W2320794405 cites W2020609369 @default.
W2320794405 cites W2024650433 @default.
W2320794405 cites W2028235323 @default.
W2320794405 cites W2034255561 @default.
W2320794405 cites W2047073292 @default.
W2320794405 cites W2049248137 @default.
W2320794405 cites W2050430691 @default.
W2320794405 cites W2051096865 @default.
W2320794405 cites W2052871659 @default.
W2320794405 cites W2053908195 @default.
W2320794405 cites W2056305100 @default.
W2320794405 cites W2057354255 @default.
W2320794405 cites W2058073789 @default.
W2320794405 cites W2065852943 @default.
W2320794405 cites W2069974055 @default.
W2320794405 cites W2080919558 @default.
W2320794405 cites W2081865126 @default.
W2320794405 cites W2085228819 @default.
W2320794405 cites W2085623696 @default.
W2320794405 cites W2092105404 @default.
W2320794405 cites W2093740181 @default.
W2320794405 cites W2104232902 @default.
W2320794405 cites W2117430745 @default.
W2320794405 cites W2122254343 @default.
W2320794405 cites W2128098413 @default.
W2320794405 cites W2129625348 @default.
W2320794405 cites W2130495565 @default.
W2320794405 cites W2132238205 @default.
W2320794405 cites W2142853275 @default.
W2320794405 cites W2152326438 @default.
W2320794405 cites W2161448947 @default.
W2320794405 cites W2164674554 @default.
W2320794405 cites W2169329985 @default.
W2320794405 cites W2169682878 @default.
W2320794405 cites W2321077364 @default.
W2320794405 cites W2321981328 @default.
W2320794405 cites W2329845235 @default.
W2320794405 cites W4234871771 @default.
W2320794405 cites W4236051258 @default.
W2320794405 cites W4238860109 @default.
W2320794405 cites W4376848506 @default.
W2320794405 doi "https://doi.org/10.1002/chem.201504420" @default.
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