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Electrochemistry of Oxygen at Ir Single Crystalline Electrodes in Acid
2017-10-27
Electrochimica Acta 246:329-337 Aug 2017

Wei, Jie; Zheng, Yong-Li; Li, Zi-Yue; Xu, Mian-Le; Chen, Yan-Xia; Ye, Shen

Abstract:
The oxygen reduction reaction (ORR) at iridium single crystalline electrodes, Ir(111) and Ir(332), in 0.1 M HClO4 and 0.5 M H2SO4 solution, was studied using cyclic voltammetry and potential step chronoamperometry under a hanging-meniscus rotating disk electrode configuration. The results are compared to the ORR behaviors observed on platinum single crystal electrodes with the same surface orientation. We found that i) The kinetics for ORR on Ir(111) are significantly slower than those on Pt(111), the onset potential and half-wave potential for ORR are ca. 100 mV and 370 mV more negative than those on Pt(111), respectively; ii) in 0.1 M HClO4 only H2Ois formed on Ir(111) at E > 0.55 V, and when E < 0.4 V the major product is H2O, in 0.5 M H2SO4 a significant amount of H2Ois produced even the potential is as low as 0.15 V; iii) Ir(332) exhibits lower ORR activity than Ir(111), with a half-wave potential that is ca. 30 mV more negative, and the diffusion-limited ORR current is not reached from 0.8 V down to 0.05 V, indicating that at Ir(332), incomplete reduction of Oto H2O2 occurs in a wide potential region; iv) significant decay of ORR current with potential scan rate and reaction time in the current transient measurements are observed on both Ir(111) and Ir(332), similar to those observed on Pt(111) and Pt(332) electrodes. The structure-activity relationship of Ir(hkl) toward ORR is discussed.

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