2014
DOI: 10.1002/chem.201304009
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Composition‐Tailored 2 D Mn1−xRuxO2 Nanosheets and Their Reassembled Nanocomposites: Improvement of Electrode Performance upon Ru Substitution

Abstract: Composition-tailored Mn1-x Rux O2 2 D nanosheets and their reassembled nanocomposites with mesoporous stacking structure are synthesized by a soft-chemical exfoliation reaction and the subsequent reassembling of the exfoliated nanosheets with Li(+) cations, respectively. The tailoring of the chemical compositions of the exfoliated Mn1-x Rux O2 2 D nanosheets and their lithiated nanocomposites can be achieved by adopting the Ru-substituted layered manganese oxides as host materials for exfoliation reaction. Upo… Show more

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Cited by 27 publications
(26 citation statements)
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“…[63b,c] The capacitance increases to 330–360 F g –1 upon introduction of Ru into the Li‐layered MnO 2 structure, i.e., Mn 1– x Ru x O 2 ( x = 0.05–0.10). The enhancement is attributed to the improvement of nanosheet conductivity upon introduction of Ru …”
Section: Applications Of Nanosheets Nanosheet Assemblies and Thin Fmentioning
confidence: 99%
“…[63b,c] The capacitance increases to 330–360 F g –1 upon introduction of Ru into the Li‐layered MnO 2 structure, i.e., Mn 1– x Ru x O 2 ( x = 0.05–0.10). The enhancement is attributed to the improvement of nanosheet conductivity upon introduction of Ru …”
Section: Applications Of Nanosheets Nanosheet Assemblies and Thin Fmentioning
confidence: 99%
“…While hybridization of oxide nanosheets and more conductive second phases as a route to getting materials with improved electrical conductivity has been studied in some depth, the use of controlled defect engineering strategies, e.g., aliovalent doping in 2D oxide lattices, as a tool to improve the lateral conductivity of nanosheets as well as their surface redox properties, and consequently also their performance, has been explored much less [46]. A systematic understanding of the influence of transition metal ion doping into 2D nanosheets on their conductivity, electron transfer (redox) properties and capacity to electrochemically store Li + , will help to boost the performance of nanosheetbased electrodes in batteries and supercapacitors.…”
Section: Current and Future Challengesmentioning
confidence: 99%
“…This is because these ionic solids have strong ionic bonds in the layers. Ion-change exfoliation is a normal method to get this kind of 2D materials [19][20][21][22][23]. The scheme of ion-change exfoliation is shown in Figure 4a [19].…”
Section: Ion-change Exfoliationmentioning
confidence: 99%