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W2022103210 startingPage "19031" @default.
W2022103210 abstract "A simple and reproducible sol–gel synthesis strategy was developed to fabricate hollow core carbon spheres (HCCSs) with hierarchical nanoarchitecture through the hydrolysis, self-assembly and co-condensation of bis-[3-(triethoxysilyl)propyl]disulfide (TESPDS) and octadecyltrimethoxysilane (C18TMS). This synthesis route allows one to fabricate thioether-bridged organosilica (TBOS) with tailored spherical structure and particle size which can be further converted to HCCS upon calcination under N2 flow. It is assumed that hydrophobic octadecyl chains of hydrolyzed C18TMS first form a micelle-like self-assembly structure with hydrophilic trihydroxysilyl groups as heads, and a reactive core is then expanded by the base-catalyzed co-condensation of TESPDS and/or C18TMS over the C18TMS self-assembly structure. The organic moieties of TESPDS and C18TMS not only serve as a porogen during the formation of TBOS but also as a carbon precursor for transformation of TBOS into HCCS during the carbonization. Due to its unique hierarchical nanostructure composed of hollow macroporous core and meso/microporous shell, which facilitates fast mass transport, along with large surface area for electrical charge storage, the HCCS for the first time exhibits ultrahigh specific capacitance and energy, good cycling performance and rate capability." @default.
W2022103210 created "2016-06-24" @default.
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W2022103210 date "2012-01-01" @default.
W2022103210 modified "2023-10-16" @default.
W2022103210 title "Fabrication of hollow core carbon spheres with hierarchical nanoarchitecture for ultrahigh electrical charge storage" @default.
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W2022103210 cites W1965798647 @default.
W2022103210 cites W1967085931 @default.
W2022103210 cites W1967726057 @default.
W2022103210 cites W1968923146 @default.
W2022103210 cites W1969917601 @default.
W2022103210 cites W1977249252 @default.
W2022103210 cites W1982609802 @default.
W2022103210 cites W1984069043 @default.
W2022103210 cites W1987707732 @default.
W2022103210 cites W1991878234 @default.
W2022103210 cites W1992686784 @default.
W2022103210 cites W1993784058 @default.
W2022103210 cites W1994141706 @default.
W2022103210 cites W2008396012 @default.
W2022103210 cites W2008643882 @default.
W2022103210 cites W2009356452 @default.
W2022103210 cites W2011689731 @default.
W2022103210 cites W2012902855 @default.
W2022103210 cites W2014305727 @default.
W2022103210 cites W2018652376 @default.
W2022103210 cites W2026346936 @default.
W2022103210 cites W2027159225 @default.
W2022103210 cites W2029114518 @default.
W2022103210 cites W2036590906 @default.
W2022103210 cites W2038870376 @default.
W2022103210 cites W2042602209 @default.
W2022103210 cites W2048862533 @default.
W2022103210 cites W2049099122 @default.
W2022103210 cites W2055776993 @default.
W2022103210 cites W2055889238 @default.
W2022103210 cites W2059611827 @default.
W2022103210 cites W2060368116 @default.
W2022103210 cites W2061186002 @default.
W2022103210 cites W2062368922 @default.
W2022103210 cites W2065547237 @default.
W2022103210 cites W2072769664 @default.
W2022103210 cites W2074480012 @default.
W2022103210 cites W2075904417 @default.
W2022103210 cites W2075929422 @default.
W2022103210 cites W2076818732 @default.
W2022103210 cites W2084777830 @default.
W2022103210 cites W2106539199 @default.
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W2022103210 doi "https://doi.org/10.1039/c2jm33435f" @default.
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