期刊
ELECTROCHIMICA ACTA
卷 417, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.electacta.2022.140308
关键词
ALD; Electrochemistry; Heterogeneous catalysis; Iridium; Water splitting
资金
- German Ministry of Education and Research (BMBF) [03SF0564A]
This study demonstrates the suitability of 3D printing for producing titanium alloy scaffolds for water oxidation electrodes. The scaffolds can be nanostructured through electrochemical anodization and coated with iridium as an electrocatalyst. The performance and stability of the functional electrodes were characterized under relevant conditions, showing that different preparative conditions can significantly affect the performance and stability.
This study establishes the applicability of 3D printing (additive manufacturing) towards the generation of titanium alloy scaffolds for water oxidation electrodes. The scaffolds can be subsequently nanostructured by electrochemical anodization to enhance their surface area and coated with iridium as the electrocatalyst. We focus on the characterization of the functional electrodes in process-relevant conditions (1 M H2SO4, 60 circle C, stirring) in terms of their performance and stability in a holistic manner. Various preparative conditions yield various patterns of performance and stability, as quantified by overpotentials eta 10 in steady-state electrolyses, maximum current densities jmax in dynamic voltammetry, surface roughness rf, and by overpotential increase, iridium loss, and jmax decrease after 100 h of operation, on the other hand. In other words, the system is highly flexible and can be adapted to specific constraints depending on the application chosen.
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