Electrochemical efficient degradation of methylene blue (MB) by two-step electrodeposited Ti/TiO2-NTs/β-PbO2 electrode: Performance, degradation mechanism, and toxicity study of intermediate products
Xindian Lan, ZhaoPeng Chu, Jianjun Zhou, Guobao Wang, Mijia Zhu
Abstract
With the advancement of nanotechnology and materials science, anodic electrocatalytic oxidation has been revitalised. In this study, a Ti/TiO 2 -NTs/β-PbO 2 electrode with a TiO 2 nanotube interlayer was fabricated using a two-step electrodeposition method for the electrochemical degradation of methylene blue (MB) wastewater. Electrochemical and accelerated lifetime tests demonstrated that the Ti/TiO 2 -NTs/β-PbO 2 electrode exhibits superior stability, with a lifespan 2.5 times that of a conventional Ti/PbO 2 electrode. The effects of current density, temperature, initial pH, and Cl − ion concentration on the electrochemical degradation of MB by Ti/TiO 2 -NTs/β-PbO 2 were systematically investigated. Under optimal conditions (current density of 50 mA/cm 2 , temperature of 25 °C, and initial pH of 7), the MB removal rate reached 100 %, and the total organic carbon (TOC) removal rate reached 64.37 %. Based on electron paramagnetic resonance (EPR) and high-performance liquid chromatography–mass spectrometry (HPLC–MS) results, a degradation mechanism for MB was proposed. The Environmental Chemistry and SAR Tool (ECOSAR 2.2) programme was applied to simulate the acute and chronic toxicity of MB degradation intermediates, revealing that some intermediates (TP3, TP5) exhibited higher toxicity than the parent compound. Toxicity of water samples at different degradation times was further evaluated using wheat and Bacillus subtilis . After 60 min of degradation, the wastewater had almost no effect on the growth of wheat or Bacillus subtilis . • Study on the Toxicity of MB Degradation Intermediates. • Preparation of Ti/TiO 2 -NTs/β-PbO 2 electrode with nano-TiO 2 as an interlayer for MB degradation. • Some intermediate products exhibit greater toxicity than the parent compound MB. • 1 O 2 are the main active substances in the oxidation of MB.