A pH‐Tailored Anodic Deposition of Hydrous RuO₂ for Supercapacitors

Abstract: A pH‐tailored anodic deposition strategy is reported in this work, by which the hydrous ruthenium oxide (RuO2) can be directly deposited on titanium (Ti) substrates. The prepared RuO2 electrode exhibits a well kinetic performance (the remarkably low equivalent series resistance of Res∼2 mΩ and charge transfer resistance of Rct∼0.11Ω) and a high specific capacitance of 756 F g‐1 at 0.6 A g‐1. More importantly, a symmetric supercapacitor based on the RuO2 electrode delivers a high specific energy of 24 Wh kg‐1 a… Show more

“…The supercapacitor electrode is the most crucial part of the storage capacity of the supercapacitor. In previous studies, pseudo-capacitance electrodes are mainly composed of oxides of elements such as Co [7][8][9], Fe [10,11], Ru [12][13][14], Mn [15,16], Ni [17,18], W [19,20], and Zn [21,22]. These metal oxides have relatively high theoretical capacitance values [23,24], and the synthesis method is simple.…”

Composite g‐C₃N₄/NiCo₂O₄ with Excellent Electrochemical Impedance as an Electrode for Supercapacitors

“…The supercapacitor electrode is the most crucial part of the storage capacity of the supercapacitor. In previous studies, pseudo-capacitance electrodes are mainly composed of oxides of elements such as Co [7][8][9], Fe [10,11], Ru [12][13][14], Mn [15,16], Ni [17,18], W [19,20], and Zn [21,22]. These metal oxides have relatively high theoretical capacitance values [23,24], and the synthesis method is simple.…”

Composite g‐C₃N₄/NiCo₂O₄ with Excellent Electrochemical Impedance as an Electrode for Supercapacitors

Facile synthesis of a Ni-based NiCo2O4-PANI composite for ultrahigh specific capacitance

Fabrication of an ingenious metallic asymmetric supercapacitor by the integration of anodic iron oxide and cathodic nickel phosphide