Electrochemical degradation of Reactive Brilliant Red K-2BP on Ti/RuTiIrSnMn oxide anode in a batch cell

Electrochemical degradation of Reactive Brilliant Red K-2BP on Ti/RuTiIrSnMn oxide anode in a batch cell

Show other versions (1)

Electrochemical degradation of Reactive Brilliant Red K-2BP on Ti/RuTiIrSnMn oxide anode in chloride containing solution was investigated by voltammetry and electrolysis in a batch cell. It is found that the degradation mechanism of K-2BP on Ti/RuTiIrSnMn oxide anode involves an indirect electrocata...

Full description

Bibliographic Details
Main Authors: LUO JIANCHENG, YANG JIE, LI WEISHAN, HUANG QIMING, XU HONGKANG
Format: Article
Language:English
Published: International Association of Physical Chemists (IAPC) 2012-11-01
Series:Journal of Electrochemical Science and Engineering
Subjects:
Decolorization
Electrooxidation
Active chlorine
Online Access:http://www.jese-online.org/Articles/Vol_02/No_4/pdf/jESE_Vol2_No4_p171-183_2012.pdf
Description
Summary:Electrochemical degradation of Reactive Brilliant Red K-2BP on Ti/RuTiIrSnMn oxide anode in chloride containing solution was investigated by voltammetry and electrolysis in a batch cell. It is found that the degradation mechanism of K-2BP on Ti/RuTiIrSnMn oxide anode involves an indirect electrocatalytic oxidation, in which K-2BP is oxidized by the electrochemically generated active chlorine. This degradation reaction follows pseudo-first order reaction kinetics. Ti/RuTiIrSnMn oxide exhibits excellent electrocata­lytic activity toward the generation of active chlorine from chloride. Hence, K-2BP can be electrochemically degraded effectively in chloride containing solution. The decolorization efficiency was found to increase with the decrease in pH and with the increase in current density, NaCl concentration, temperature, and flow rate of the solution.
ISSN:1847-9286

Similar Items