亚甲蓝
纳米-
材料科学
降级(电信)
阳极
纳米管
阳极氧化
亚甲基
电流(流体)
化学工程
纳米技术
电化学
脉搏(音乐)
化学
碳纳米管
电极
复合材料
光催化
催化作用
物理化学
光学
有机化学
电子工程
物理
工程类
热力学
探测器
作者
Hossein Eslami,Saeed Reza Allahkaram
标识
DOI:10.1149/1945-7111/adab2c
摘要
This study focused on examining how the presence of a TiO 2 nanotube (NT) interlayer and decreasing particle size affects the electrochemical performance and service life of PbO 2 -coatings on a titanium substrate. The Ti/TiO 2 -NT/ β -PbO 2 and Ti/PbO 2 electrodes were synthesized using direct current with particle size of 3 μm and optimized current density values, while the Ti/TiO 2 -NT/nano β -PbO 2 electrodes with β -PbO 2 particle size of 35 nm were synthesized using a simple pulse electrodeposition method and optimized duty cycle. The results of cyclic voltammetry demonstrated that the Ti/TiO 2 -NT/nanoPbO 2 electrode exhibited a larger electrochemically active surface area, voltammetry charge values of 3.06 mC cm −2 , and a lower charge transfer resistance of 9.47 Ω.cm 2 compared to the Ti/TiO 2 -NT/microPbO 2 and Ti/PbO 2 , which had values of 9.26 and 14.62 mC cm −2 and 61.58 Ω.cm 2 , and 8900 Ω.cm 2 , respectively. Accelerated service life tests showed that the Ti/TiO 2 /nanoPbO 2 electrode (55 h) had a better service life than those of Ti/TiO 2 -NT/microPbO 2 and Ti/PbO 2 electrodes (50 and 18 h respectively). Moreover, the Ti/TiO 2 -NT/nano β -PbO 2 electrode showed the highest performance in degrading methylene blue in simulated wastewater by bulk electrolysis, with a removal efficiency of approximately 100% at optimal current density (60 mAcm −2 ), surpassing the efficiency of the Ti/TiO 2 -NT/microPbO 2 (76%) and Ti/PbO 2 electrodes (53%).
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