The Sol-Gel-Derived Nickel-Cobalt Oxides with High Supercapacitor Performances

Nickel cobalt (Ni-Co) oxides with various Ni/Co ratios are synthesized by using a sol-gel process. Electrochemical performance, microstructure, morphology and BET surface area are found strongly related to Ni and Co concentration. Increasing Co concentration changes the oxide microstructure from NiO crystal dominate structure (Ni:Co= 1:1 and 1:2) to Co 3 O 4 dominate structure (Ni:Co= 1:4 and 0:1). A maximum specific capacitance of 1539 Fg ―1 was obtained for Ni-Co (Ni:Co= 1:2) oxide at a current density of lAg ―1 , and this capacitance is similar to that of RuO 2 . A systematic study shows that the Ni-Co oxide (1:2) has a mesoporous structure with a high BET surface area of ∼315 m 2 g ―1 and porous size of ∼4.7 nm, which is favorable for the charge/ discharge process of a supercapacitor.