Novel Sb-doped ruthenium  oxide electrode with  ordered nanotube  structure  and its  electrocatalytic  activity   toward  chlorine   evolution

 作者:Cao, HZ (Cao, Huazhen)^[ 1 ] ; Lu, DH (Lu, Donghui)^[ 1 ] ; Lin, JP (Lin, Junpin)^[ 2 ] ; Ye, Q (Ye, Qiao)^[ 1 ] ; Wu, JJ(Wu, Jiajun)^[ 1 ] ; Zheng, GQ (Zheng, Guoqu)^[ 1 ]

 卷: 91  页: 234-239  DOI: 10.1016/j.electacta.2012.12.118  出版年: FEB 28 2013

摘要

An electrochemical method for the fabrication of nanostructured ruthenium oxide composite electrode from TiO2 nanotube arrays (TNTs) is presented. Briefly, activated TNTs support with improved electrical property was obtained by heat treatment, and ruthenium was subsequently deposited along the inner and outer surface of TiO2 nanotubes by electrochemical method. The as-prepared electrode showed a highly ordered nanotube structure with high specific surface area. Furthermore, the addition of Sb3+ into electrolyte could benefit the electrodeposition of ruthenium and the subsequent thermal oxidation process, which were proved by the more loaded RuO2 nanoparticles and the smaller particle size. Sb-doped RuO2/TNTs electrode prepared from the electrolyte containing a low concentration of Sb3+ showed a high electrocatalytic activity toward chlorine evolution, and the anodic current reached 170 mA cm(-2) at 1.2 V. Excess Sb3+ in electrolyte, however, would lead to a remarkable decrease in electrode property as antimony is not an active ingredient for chlorine evolution reaction. A model R-s(Q(1)(R-1(R(2)Q(2)))) was proposed to analyze the electrochemical impedance characteristic of the nanostructured electrodes. The charge transfer resistance on the Sb-doped RuO2/TNTs electrode was much smaller than that on a RuO2/TNTs electrode. (C) 2013 Elsevier Ltd. All rights reserved.

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