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W2884202819 endingPage "13902" @default.
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W2884202819 abstract "Abstract Early studies indicate that graphite is feasible as the negative electrode of a potassium‐ion battery, but its electrochemical performance still cannot meet the demands of applications. More efforts should be focused on increasing the specific capacity and improving the rate capability in the meantime. Thus, stainless‐steel autoclave technology has been utilized to prepare phosphorus nanoparticles encapsulated in reduced graphene oxide matrix as the electrode materials for a potassium‐ion battery. As a result, the composite matrix affords high reversible capacities of 354 and 253 mA h g −1 at 100 and 500 mA g −1 , respectively. The superior electrochemical performance is mainly because the composite matrix possesses better electronic conductivity and a robust structure, which can promote the electron‐transfer performance of the electrode. Furthermore, phosphorus particles can contribute to the high capacity through an alloying mechanism. In addition, the silklike, ultrathin, film composite with a high surface area is conducive to capacitive potassium‐ion storage, which plays a more important role in rate performance and a high current density capability." @default.
W2884202819 created "2018-08-03" @default.
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W2884202819 date "2018-08-20" @default.
W2884202819 modified "2023-10-16" @default.
W2884202819 title "Phosphorus Particles Embedded in Reduced Graphene Oxide Matrix to Enhance Capacity and Rate Capability for Capacitive Potassium‐Ion Storage" @default.
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W2884202819 cites W1983871010 @default.
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W2884202819 cites W2016365520 @default.
W2884202819 cites W2041124455 @default.
W2884202819 cites W2042199544 @default.
W2884202819 cites W2077691789 @default.
W2884202819 cites W2091147020 @default.
W2884202819 cites W2104840398 @default.
W2884202819 cites W2105333022 @default.
W2884202819 cites W2120576892 @default.
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W2884202819 cites W2168639216 @default.
W2884202819 cites W2239110347 @default.
W2884202819 cites W2265257899 @default.
W2884202819 cites W2266379348 @default.
W2884202819 cites W2279608931 @default.
W2884202819 cites W2291447173 @default.
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W2884202819 cites W2736230196 @default.
W2884202819 cites W2737380405 @default.
W2884202819 cites W2746429883 @default.
W2884202819 cites W2751399230 @default.
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W2884202819 doi "https://doi.org/10.1002/chem.201802753" @default.
W2884202819 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30007085" @default.
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