Factors in the utilization of corrosive ruthenium in the oxygen evolution electrode of polymer electrolyte membrane water electrolysis

초록

The use of non-Pt materials in polymer electrolyte membrane water electrolysis (PEMWE) anodes is imperative to reduce green hydrogen production costs. Ru provides sufficient electrical and thermal conductivity, but rapidly over-oxidizes to RuO42- or H2RuO5 during PEMWE device operation. Therefore, this study involved using corrosive Ru instead of expensive Pt to form an interlayer between a Ti porous transport layer and the IrOx catalyst in PEMWE anodes, while enhancing the water-oxidation-catalyzing ability of IrOx. The optimized Ru-containing anode was comparable to the Pt-containing equivalent in OER performance (5.5 A cm(-2) at 2.0 V-Cell; similar to 80 mu g cm(-2) of Ir). Importantly, the Ru in the PEMWE anode functioned stably for >250 h at a practical current density (2.0 A cm(-2)) during current swing operation. Consequently, the Ru-interlayer-based device was comparable to the conventional Pt-interlayer-based counterpart in performance and durability. The relationship between Ru dissolution and local oxygen accumulation at electrode surfaces was clarified.

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