Oxygen and hydrogen evolution reactions on Ru, RuO2, Ir, and IrO2 thin film electrodes in acidic and alkaline electrolytes: A comparative study on activity and stability

By Serhiy Cherevko and Simon Geiger and Olga Kasian and Nadiia Kulyk and Jan-Philipp Grote and Alan Savan and Buddha Ratna Shrestha and Sergiy Merzlikin and Benjamin Breitbach and Alfred Ludwig and Karl J.J. Mayrhofer
Published in Catalysis Today NULL 2016

Abstract

Metallic iridium and ruthenium as well as their oxides are among the most active oxygen evolution (OER) electrocatalysts in acidic media, and are also of interest for the catalysis of the hydrogen evolution (HER). The stability of these materials under different operating conditions is, however, still not fully understood. In the current work, activity and stability of well-defined Ru, RuO2, Ir, and IrO2 thin film electrodes are evaluated in acidic and alkaline electrolytes using an electrochemical scanning flow cell (SFC) connected to an inductively coupled plasma mass spectrometer (ICP-MS). Identical experimental protocols are intentionally employed for all electrodes and electrolytes, to obtain unambiguous and comparable information on intrinsic activity and stability of the electrodes. It is found that independent of the electrolyte, \OER\ activity decreases as Ru > Ir ? RuO2 > IrO2, while dissolution increases as IrO2 ? RuO2 < Ir ? Ru. Moreover, dissolution of these metals in both solutions is 2

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