Journal
JOURNAL OF POWER SOURCES
Volume 115, Issue 1, Pages 179-186Publisher
ELSEVIER SCIENCE BV
DOI: 10.1016/S0378-7753(02)00647-X
Keywords
electrochemical supercapacitors; amorphous manganese oxide; specific capacitance; experimental strategies
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The optimal deposition conditions for plating the amorphous manganese oxide (denoted as a-MnOx.nH(2)O) with a maximum specific capacitance were approached by using the experimental strategies, including the fractional factorial design (FFD), the path of steepest ascent and the central composite design (CCD) coupled with the response surface methodology (RSM). The anodic deposition variables such as current density of deposition, pH, MnSO4 concentration and temperature of the plating bath were found to be the key factors influencing the specific capacitance of a-MnOx-nH(2)O in the FFD study. These variables were subjected to the path of the steepest ascent study to approach the vicinity of optimal conditions for plating the a-MnOx.nH(2)O deposit with a maximum specific capacitance. Effects of the current density and the MnSO4 concentration were further examined using a regression model in the CCD study. This model, represented as response surface contour plots, showed that a-MnOx-nH(2)O deposited under pH of 5.6, a current density of 3.7 mA cm(-2), a passed charge of 0.3 C cm(-2), a MnSO4 concentration of 0.16 M and a deposition temperature of 24 degreesC exhibited the highest specific capacitance of ca. 220 F g(-1). (C) 2003 Elsevier Science B.V. All rights reserved.
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