Electrochimica Acta, Vol.204, 160-168, 2016
Template-assisted synthesis of NiP@CoAl-LDH nanotube arrays with superior electrochemical performance for supercapacitors
A novel NiP@CoAI-LDH nanotube arrays (NiP@CoAl-LDH NTAs) are successfully designed on Ni foam via template-assisted electrodeposition process. The unique nanotube arrays can provide a short diffusion path for electrolyte ions and a high utilization rate for electrode materials. As a consequence, the obtained NiP@CoAI-LDH NTAs electrode presented the superior electrochemical performances, which demonstrated an areal specific capacity of 0.67 C cm (2) (556 C g (1)) at 1 mA cm (2) and a high capacity retention of 74.1% at 20 mA cm 2, much higher than that of Nip NTAs and CoAI-LDH electrodes. The asymmetric supercapacitor device (ACS device) also displayed predominant electrochemical properties, such as high specific capacity of 156.1 Cg (1) at 2 mA cm (2) and energy density of 37.18 Wh kg (1) at a power density of 0.45 kW kg (1). Besides, the specific capacity of ACS device maintained 95.50% of the initial specific capacity at 6 mA cm 2 after 4000 cycles, indicating its potential applications in long-term cycle life supercapacitor. These results illustrate the promise of NiP@CoAI-LDH NTAs as electrode for supercapacitor. (C) 2016 Elsevier Ltd. All rights reserved.
Keywords:Template-assisted electrodeposition;CoAl layered double hydroxide;NiP nanotube arrays;supercapacitor