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W1987482831 abstract "Graphene is a promising electrode material for energy storage applications. The most successful method for preparing graphene from graphite involves the oxidation of graphite to graphene oxide (GO) and reduction back to graphene. Even though different chemical and thermal methods have been developed to reduce GO to graphene, the use of less toxic materials to generate graphene still remains a challenge. In this study we developed a facile one-pot synthesis of deoxygenated graphene (hGO) via alkaline hydrothermal process, which exhibits similar properties to the graphene obtained via hydrazine reduction (i.e. the same degree of deoxygenation found in hydrazine reduced GO). Moreover, the hGO formed freestanding, binder-free paper electrodes for supercapacitors. Coin cell type (CR2032) symmetric supercapacitors were assembled using the hGO electrodes. Electrochemical characterization of hGO was carried out using lithium bis(trifluoromethanesulfonyl)imide (LiTFSI) and ethylmethylimidazolium bis-(trifluoromethanesulfonyl)imide (EMITFSI) electrolytes. The results for the hGO electrodes were compared with the hydrazine reduced GO (rGO) electrode. The hGO electrode exhibits a energy density of 20 W h kg−1 and 50 W h kg−1 in LiTFSI and EMITFSI respectively, while delivering a maximum power density of 11 kW kg−1 and 14.7 kW kg−1 in LiTFSI and EMITFSI, respectively." @default.
W1987482831 created "2016-06-24" @default.
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W1987482831 creator A5064228776 @default.
W1987482831 creator A5068374736 @default.
W1987482831 date "2012-10-01" @default.
W1987482831 modified "2023-10-03" @default.
W1987482831 title "Alkaline deoxygenated graphene oxide for supercapacitor applications: An effective green alternative for chemically reduced graphene" @default.
W1987482831 cites W1965452819 @default.
W1987482831 cites W1972756477 @default.
W1987482831 cites W1976156302 @default.
W1987482831 cites W1978526397 @default.
W1987482831 cites W1978692671 @default.
W1987482831 cites W1989937017 @default.
W1987482831 cites W1994806603 @default.
W1987482831 cites W1996218409 @default.
W1987482831 cites W1998779973 @default.
W1987482831 cites W2000618560 @default.
W1987482831 cites W2003408860 @default.
W1987482831 cites W2004454581 @default.
W1987482831 cites W2004558737 @default.
W1987482831 cites W2008259975 @default.
W1987482831 cites W2010242715 @default.
W1987482831 cites W2011339307 @default.
W1987482831 cites W2018090290 @default.
W1987482831 cites W2018652376 @default.
W1987482831 cites W2022506474 @default.
W1987482831 cites W2024192411 @default.
W1987482831 cites W2025570578 @default.
W1987482831 cites W2028157562 @default.
W1987482831 cites W2028872596 @default.
W1987482831 cites W2029066016 @default.
W1987482831 cites W2031004145 @default.
W1987482831 cites W2031461769 @default.
W1987482831 cites W2032918254 @default.
W1987482831 cites W2040950044 @default.
W1987482831 cites W2042087808 @default.
W1987482831 cites W2042454875 @default.
W1987482831 cites W2043927293 @default.
W1987482831 cites W2051074249 @default.
W1987482831 cites W2053328406 @default.
W1987482831 cites W2058047981 @default.
W1987482831 cites W2064753851 @default.
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W1987482831 cites W2074684620 @default.
W1987482831 cites W2075550639 @default.
W1987482831 cites W2076301381 @default.
W1987482831 cites W2078853455 @default.
W1987482831 cites W2083836259 @default.
W1987482831 cites W2084350317 @default.
W1987482831 cites W2088536409 @default.
W1987482831 cites W2089465864 @default.
W1987482831 cites W2089934023 @default.
W1987482831 cites W2092029638 @default.
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W1987482831 doi "https://doi.org/10.1016/j.jpowsour.2012.04.059" @default.
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