Iridium Deposited on Niobium-Doped Titanium Dioxide (NbTiO) for High-Stability and Effective Oxygen Evolution Reaction (OER) Catalyst in Acidic Environment

材料科学 催化作用 二氧化钛 锐钛矿 氧化铌 析氧 掺杂剂 化学工程 兴奋剂 氧化态 无机化学 电化学 化学 冶金 电极 物理化学 金属 光催化 有机化学 工程类 光电子学
作者
Hoang Phi Tran,Hong Nhan Nong,Matthias Kroschel,Matej Zlatar,Serhiy Cherevko,Peter Strasser
出处
期刊:Meeting abstracts 卷期号:MA2023-01 (36): 2047-2047
标识
DOI:10.1149/ma2023-01362047mtgabs
摘要

The state-of-the-art iridium-based catalyst, which is the trade-off between activity and durability during acidic OER, needs to be distributed on low-cost effective support materials for the economical utilization of electrolyzers. 1 Normally, dopant is introduced into the oxide lattice structure in order to improve the conductivity of the support, which in turn can diminish the Iridium loading content. In this talk, niobium doped titanium dioxide (NbTiO), which is proved to have promising durability in acidic OER conditions, is applied for supported Ir-based catalyst. Based on the powder compression method for conductivity measurement, 2 the resistivity of synthesized Nb-doped TiO 2 , with niobium content of 10 at. % (NbTiO10), is about tens times lower than the resistivity of anatase TiO 2 (a.TiO 2 ). Which, in turn brings to the 40 wt. % Ir/NbTiO10 the resistivity of millions times lower than 40 wt.% Ir/a.TiO 2 and hundreds times lower than 50 wt.% Ir/a.TiO 2 . Moreover, by introducing an organic framework to the synthesis, support's surface area can be enlarged and its macroporous morphology can be modified. Various ex-situ methods, e.g. HR-STEM, XRD, and RDE, are used to investigate the influence of the distribution and oxidation state of the Ir-active phase on doped TiO 2 support onto the performance of catalysts, before and after the acceleration stress test (AST). And in-situ methods, including ICP-MS coupling scanning flow cell and XAS, are also applied, in order to reveal the alternating of every single component in the catalytic system during OER and after the AST. The catalyst was then tested in electrolyzer to compare its performance with the commercial Elyst Umicore Catalyst. Reier, T.; Oezaslan, M.; Strasser, P., Electrocatalytic Oxygen Evolution Reaction (OER) on Ru, Ir, and Pt Catalysts: A Comparative Study of Nanoparticles and Bulk Materials. ACS Catalysis 2012, 2 (8), 1765-1772. Karimi, F.; Peppley, B. A., Metal Carbide and Oxide Supports for Iridium-Based Oxygen Evolution Reaction Electrocatalysts for Polymer-Electrolyte-Membrane Water Electrolysis. Electrochimica Acta 2017, 246 , 654-670.

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