标题:Self-assembled Cube-like Copper Oxide Derived from a Metal-Organic Framework as a High-Performance Electrochemical Supercapacitive Electrode Material
摘要:Interest in pseudocapacitive materials, especially cuprous oxide, has grown owing to its various advantageous properties and application as electrode materials in the energy storage devices. The work presented here, a cubic Cu 2 O framework was synthesized using a simple and one-step modified polyol-assisted (metal-organic framework) solvothermal method. The structural configuration was rationalized by systematically studying the effect of the reaction time on the morphology and growth of the Cu 2 O. In addition, a range of microscopic and spectroscopic techniques was employed to further characterize the obtained cubic Cu 2 O. The morphological effect on the electrochemical supercapacitive performance of the obtained cubic Cu 2 O was also examined by cyclic-voltammetry (CV) and galvanostatic-charge-discharge (G-C-D) method. The obtained outcome shows that the cubic Cu 2 O synthesized using a reaction time of 12 h (Cu 2 O-12h; C sp ~365 Fg -1 ) exhibited superior capacitive performance as compared to the cubic Cu 2 O synthesized at 8 h (Cu 2 O-8h; C sp ~151 Fg -1 ) and 10 h (Cu 2 O-10h; C sp ~195 Fg -1 ) at the current density of 0.75 Ag -1 . Furthermore, the Cu 2 O-12h electrode exhibits energy density of 16.95 Wh/Kg at a power density of 235.4 W/Kg and higher power density of 2678.5 W/Kg at low current density. In particular, the cube-like Cu 2 O-12h exhibited excellent capacitive performance and rate capability as compared to Cu 2 O-8h and Cu 2 O-10h, owing to its unique three-dimensional morphology, which facilitates the formation of various active sites for intercalation of the electrolyte during the electrochemical process. These results show the as-obtained Cu 2 O could be a promising supercapacaitive electrode material for various applications.
