Are ruthenium oxides a promising material for electrochemical charge storage?

Department of Chemistry, Chandernagore College, Hooghly, WB, India Ruthenium oxides owing to their high specific capacitance have been widely identified as promising materials for electrochemical charge storage devices. However, high priced ruthenium precursors restrict their commercial usage.

Why is ruthenium nitride a charge storage mechanism?

The charge storage mechanism takes advantage of the high electrical conductivity and the morphology of cubic ruthenium nitride and Ru phases in the feather-like core, leading to high electrical conductivity in combination with high capacity.

Why is ruthenium oxide a good electrode material?

The critical attribute of ruthenium oxide is its readily reversible redox reaction enabling superior pseudocapacitance functionality as the electrode material . Moreover, RuO 2 -based electrodes possess a wide electrochemical potential window, high conductivity, enhanced rate capability, good thermal stability as well superior cyclability .

Can ruthenium dioxide be used as a supercapacitor electrode?

Moreover, the effective production cost of the electrode using pristine RuO 2 is large that limits its commercial usage considerably. Consequently, electrodes of ruthenium dioxide in various composite forms have been investigated for supercapacitor applications.

Why is ruthenium a good material?

Ruthenium is very stable in nature. It has a strong resistance against corrosion , , , . Ru-based materials are made up of the nickel pyrite units and are one of the most potential candidates for capacitance , , , , , .

Is electrochemical energy storage technology a good idea?

Electrochemical energy storage technology, for example, promise a step towards high energy density, high-rate performance, reliable cycling stability. However, the weakness lies in the capability of effectively utilizing the electrode materials , , , , , , , , .