Add to ORKGRuthenium oxide–carbon composites with different loadings of RuO2 on carbon have been synthesized by an electroless deposition process. Increase in RuO2 loading results in increasing the specific capacitance of the composite electrode. The effect of temperature treatment on the performance of these materials has been studied in detail. Maximum capacitance was observed after heat treatment at 100°C for all the composites. Increasing the oxidation temperature further converts the Ru oxides to crystalline form, which leads to poor capacitance values. A maximum capacitance of 260 F/g was obtained for 20 wt.% RuO2loaded carbon treated at 100°C. The volumetric surface area of the composite remains constant with increased RuO2 loading. Since Ru ox...
The morphology and the capacitive properties of carbon supported hydrous ruthenium oxide (RuOxHy/C),...
Downof electrode materials having high specific surface areas, such as carbon and transition-metal o...
Hydrous ruthenium oxide/carbon black nanocomposites were prepared by impregnation of the carbon blac...
Ruthenium oxide–carbon composites with different loadings of RuO2 on carbon have been synthesized by...
Ruthenium oxide–carbon composites with different loadings of RuO2 on carbon have been synthesized by...
Ruthenium oxide–carbon composites with different loadings of RuO2 on carbon have been synthesized by...
It is shown that composite Ru oxide-carbon based supercapacitors possess superior energy and power d...
It is shown that composite Ru oxide-carbon based supercapacitors possess superior energy and power d...
[[abstract]]©2004 Elsevier - The utilization of electrode materials could be greatly promoted by the...
[[abstract]]©2004 Elsevier - The high specific capacitance of ruthenium oxide (denoted as RuOx ) nan...
[[abstract]]©2004 Elsevier - The high specific capacitance of ruthenium oxide (denoted as RuOx ) nan...
Hydrous ruthenium oxide (RuO2) and activated carbon (AC) denoted as RuO2/AC composite electrodes wer...
Hydrous ruthenium oxide (RuO2) and activated carbon (AC) denoted as RuO2/AC composite electrodes wer...
The relationship between the structure-specific capacitance (F g-1) of a composite electrode consist...
The morphology and the capacitive properties of carbon supported hydrous ruthenium oxide (RuOxHy/C),...
The morphology and the capacitive properties of carbon supported hydrous ruthenium oxide (RuOxHy/C),...
Downof electrode materials having high specific surface areas, such as carbon and transition-metal o...
Hydrous ruthenium oxide/carbon black nanocomposites were prepared by impregnation of the carbon blac...
Ruthenium oxide–carbon composites with different loadings of RuO2 on carbon have been synthesized by...
Ruthenium oxide–carbon composites with different loadings of RuO2 on carbon have been synthesized by...
Ruthenium oxide–carbon composites with different loadings of RuO2 on carbon have been synthesized by...
It is shown that composite Ru oxide-carbon based supercapacitors possess superior energy and power d...
It is shown that composite Ru oxide-carbon based supercapacitors possess superior energy and power d...
[[abstract]]©2004 Elsevier - The utilization of electrode materials could be greatly promoted by the...
[[abstract]]©2004 Elsevier - The high specific capacitance of ruthenium oxide (denoted as RuOx ) nan...
[[abstract]]©2004 Elsevier - The high specific capacitance of ruthenium oxide (denoted as RuOx ) nan...
Hydrous ruthenium oxide (RuO2) and activated carbon (AC) denoted as RuO2/AC composite electrodes wer...
Hydrous ruthenium oxide (RuO2) and activated carbon (AC) denoted as RuO2/AC composite electrodes wer...
The relationship between the structure-specific capacitance (F g-1) of a composite electrode consist...
The morphology and the capacitive properties of carbon supported hydrous ruthenium oxide (RuOxHy/C),...
The morphology and the capacitive properties of carbon supported hydrous ruthenium oxide (RuOxHy/C),...
Downof electrode materials having high specific surface areas, such as carbon and transition-metal o...
Hydrous ruthenium oxide/carbon black nanocomposites were prepared by impregnation of the carbon blac...