Ruthenium‐iridium alloyed oxides with remarkable catalytic stability for proton exchange membrane water electrolysis at industrial current density
Ting Huang, Zenan Bian, Cong Wei, Tao Huang, Yifan Wang, Zhaohui Liu, Xin-yue Du, You-Ming Lv, Yanyan Fang, Ming Fang, Gongming Wang
Abstract
Abstract Despite the cost and activity advantages, ruthenium‐based oxygen evolution reaction (OER) catalysts face severe stability problems for proton exchange membrane water electrolysis (PEM‐WE) due to Ru dissolution. Although tremendous attention has been paid to enhancing the stability and activity under small current density in three electrode systems, there still lacks validation under industrial current density at the device level. Aiming at this issue, we report highly active and durable ruthenium‐iridium alloyed oxides (IrRuO x ) as the acidic OER catalyst for PEM‐WE with exceptional durability for 1600 h at an industrial current density of 2.0 A·cm −2 . X‐ray absorption spectroscopy reveals that the introduction of iridium modulates the electronic structure of Ru and strengthens the local Ru–O bonds in RuO 2 , which is crucial for ensuring activity and stability. As a result, in comparison with its RuO 2 counterpart, IrRuO x works stably against the Ru leaching‐induced catalytic layer breakage during the stability test. This work demonstrates the great potential of IrRuO x as the practical OER catalyst for the application in PEM‐WE.