Synergistic promotion by highly active square-shaped lead oxide and visualized electrolyzer for enhanced electrochemical ozone production

臭氧 析氧 电解 电化学 电催化剂 氧化物 材料科学 化学工程 化学物理 化学 电极 工程类 有机化学 物理化学 电解质
作者
Jia Liu,Shibin Wang,Jinfu Cai,Lizhen Wu,Yun Liu,Jiahui He,Zaixiang Xu,Xiaoge Peng,Xing Zhong,Liang An,Jianguo Wang
出处
期刊:Chinese Journal of Catalysis [Elsevier BV]
卷期号:57: 80-95 被引量:8
标识
DOI:10.1016/s1872-2067(23)64614-5
摘要

Electrochemical ozone production (EOP) is an intrinsically safe technology compared to Corona discharge methods for ozone generation. However, EOP technology exhibits higher electrical utility demand. Herein, a square-shaped lead oxide (PbOx-CTAB-120) electrocatalyst with outstanding EOP activity has been successfully prepared by a simple method. Then the PbOx-CTAB-120 was assembled into a newly visualized EOP electrolyzer (with parallel flow field) at 1.0 A cm−2 in ultrapure water. The gaseous ozone yield reached 588 mg h−1 g−1catalyst, corresponding to a specific energy consumption (PEOP) of 56 Wh g−1gaseous ozone. In-situ 18O isotope-labelled differential electrochemical mass spectrometry reveals that PbOx-CTAB-120 undergoes phase shuttling to β-PbO2 via the lattice oxygen oxidation mechanism pathway. Furthermore, density functional theory calculations for multiple reaction pathways on the Pb3O4 (110) surface also demonstrated the participance of lattice oxygen in the EOP process, with the results show that the oxygen vacancy generated from lattice oxygen migration could effectively stabilize the OOH* and O2* reaction intermediate in contrast to the adsorbate evolution mechanism. Therefore, the presence of highly stabilized surfaces Pb3O4 (110) on PbOx-CTAB-120 before phase shuttling and the stabilization of β-PbO2 (101) and β-PbO2 (110) crystalline surfaces after phase shuttling allowed PbOx-CTAB-120 to maintain its excellent EOP activity and stability. Moreover, based on computational fluid dynamics simulations and experimental observations, the parallel flow field design facilitated efficient mass transfer of the gaseous product (O2+O3) and effective thermal dissipation of the system. In addition, the high activity electrocatalyst coupled with the optimized EOP electrolyzer enabled efficient in-situ degradation of organic species.
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