Three-dimensional porous Ti supported Ni/Sb Co-doped SnO2 anode for electrocatalytic production of ozone
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Zhao, D
Dong, M
Fu, HQ
Zou, Y
Xu, Y
Zhou, M
Zhang, L
Wang, L
Shu, Y
Zhang, K
Chen, Z
Sun, Y
Harbort, J
Harmer, J
et al.
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Abstract
Electrochemical ozone (O3) production (EOP) offers a promising green alternative for in situ generating high concentration, strongly oxidizing O3. However, its progress is hindered by low durability and poor Faradaic efficiency of the anodes. Herein, a nanosheet-structured nickel and antimony co-doped tin dioxide (Ni/Sb-SnO2) is directly grown on three-dimensional porous titanium (3D-PTi), achieving enhanced EOP performance. The 3D architecture and Ni/Sb co-doping synergistically improve both activity and stability, making it a highly efficient and durable EOP anode. The Ni/Sb-SnO2@3D-PTi anode achieved a Faradaic efficiency above 28 % with an energy consumption of 25.44 Wh g⁻1 at 20 mA cm−2 in 0.5 M H2SO4, surpassing other SnO2-based comparative anodes. It maintains excellent stability for over 25 h at 100 mA cm−2. Furthermore, the high-flow O3 generated in situ effectively removes 97 % of tetracycline within 2 h, with a Total Organic Carbon (TOC) reduction of 66.1 %. This work demonstrates the strong potential of EOP-derived advanced oxidation processes for environmental remediation.
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Journal of Environmental Chemical Engineering
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12
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6
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© 2024 The Authors. Published by Elsevier Ltd. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
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Physical chemistry
Chemical engineering
Environmental engineering
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Hu, M; Zhao, D; Dong, M; Fu, HQ; Zou, Y; Xu, Y; Zhou, M; Zhang, L; Wang, L; Shu, Y; Zhang, K; Chen, Z; Sun, Y; Harbort, J; Harmer, J; Liu, P; Yin, H; Zhao, H, Three-dimensional porous Ti supported Ni/Sb Co-doped SnO2 anode for electrocatalytic production of ozone, Journal of Environmental Chemical Engineering, 2024, 12 (6), pp. 114915