Superior Additive of Exfoliated RuO2 Nanosheet for Optimizing the Electrode Performance of Metal Oxide over Graphene

Authors
Lee, SeulJin, XiaoyanKim, In YoungGu, Tae-HaChoi, Ji-WonNahm, SahnHwang, Seong-Ju
Issue Date
2016-06-09
Publisher
American Chemical Society
Citation
The Journal of Physical Chemistry C, v.120, no.22, pp.11786 - 11796
Abstract
An effective way to optimize the electrode performance of metal oxide was developed by employing exfoliated 2D RuO2 nanosheet as a conducting additive. The exfoliated RuO2 nanosheet was easily incorporated into the Li-MnO2 nanocomposite via a simple mixing of exfoliated RuO2 and MnO2 nanosheets, followed by the restacking with Li+ ions. The incorporation of RuO2 nanosheet was found to be quite effective in increasing the surface area of the restacked Li-MnO2 nanocomposite. The obtained heterolayered Li-MnO2-RuO2 nanocomposites delivered much greater specific capacitances than do the pristine Li-MnO2 and Li-RuO2 nanocomposites. Considering the fact that the RuO2 nanosheet has higher electrode activity than the MnO2 nanosheet, the greater specific capacitance of Li-MnO, RuO2 nanocomposite than that of Li-RuO2 strongly suggests that the incorporation of a small amount of RuO2 nanosheet into the restacked Li-MnO2 nanocomposite induces a synergistic improvement in its electrode activity. Of prime importance is that the Li-MnO2-RuO2 nanocomposites showed somewhat better electrode performances than the reduced graphene oxide (rG-O)incorporated Li-MnO2-rG-O homologues, attributable to more efficient charge transport and pore structure upon RuO2 incorporation. The hydrophilic RuO2 nanosheet is more effective in making a stronger chemical interaction with hydrophilic MnO2 and also in depressing the self-aggregation of nanosheets compared to hydrophobic rG-O nanosheet. The present study clearly demonstrates that the RuO2 nanosheet can be used as a better additive for improving the electrode performance of metal oxides compared with widely used rG-O.
Keywords
MANGANESE OXIDE; ASYMMETRIC SUPERCAPACITORS; ENERGY-STORAGE; 2D NANOSHEETS; NANOCOMPOSITES; SPECTROSCOPY; NANOSTRUCTURES; HYBRIDIZATION; FUNCTIONALITY; IRRADIATION; MANGANESE OXIDE; ASYMMETRIC SUPERCAPACITORS; ENERGY-STORAGE; 2D NANOSHEETS; NANOCOMPOSITES; SPECTROSCOPY; NANOSTRUCTURES; HYBRIDIZATION; FUNCTIONALITY; IRRADIATION
ISSN
1932-7447
URI
https://pubs.kist.re.kr/handle/201004/123971
DOI
10.1021/acs.jpcc.6b02257
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KIST Article > 2016
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