Binary nickel-cobalt hydroxides (denoted as NixCo1-x(OH)(2)) with advanced capacitive performances, such as the superior rate capability, energy efficiency, and capacitance rate-/cycle-retention, are synthesized by cathodic deposition. The effects of deposition variables are systematically investigated and discussed. The deposition current density has been found to determine the morphology of hydroxides whereby a small current density facilitates the formation of porous nanonetwork microstructures. Both pH and temperature of the precursor solution affect the Co/Ni ratio of hydroxides, which in turn influence the capacitive performances. Eventually, Ni0.32Co0.68(OH)(2) synthesized under our proposed deposition condition exhibits a specific capacitance value of ca. 1000 F g(-1) at 5 mV s(-1), 100% capacitance cycle-retention over 1000 cycles, and 69% capacitance rate-retention (varying from 5 to 500 mV s(-1)). These superior capacitive performances make Ni0.32Co0.68(OH)(2) a promising material of the positive electrode for an asymmetric supercapacitor with an energy efficiency of 90% at 10 A g(-1).

• 出版日期2014-5-1
• 单位清华大学