Pd-Ir alloy as an anode material for borohydride oxidation

• Main Authors: Merino Jimenez, Irene (Author), Janik, M.J (Author), Ponce de Leon, Carlos (Author), Walsh, F.C (Author)
• Format: Article
• Language: English
• Published: 2014-12-10.
• Subjects: Article
• Online Access: Get fulltext

 A Pd-Ir alloy (1:1) coated on microfibrous carbon (11 mm diameter) supported on a titanium plate was evaluated as an electrode for the anodic oxidation of borohydride. The hydrogen generated, due to the parallel reaction of borohydride hydrolysis, was measured during the electrolysis obtaining less than 0.1 cm³ min^-1 H₂ between -1 and 0 V vs. Hg/HgO (-0.86 and 0.14 V vs. SHE), while the current densities for the oxidation of borohydride were up to 367 mA cm^-2 in 0.5 mol dm^-3 NaBH₄ + 3 mol dm^-3 NaOH. The low rate of hydrogen generation suggests that Pd-Ir could be a promising catalyst for borohydride oxidation. However, higher rates of hydrogen were generated at the open circuit potential, which is inconvenient in the direct borohydride fuel cell. Cyclic voltammetry allowed analysis of the oxidation peaks due to the borohydride oxidation. To obtain a further understanding of the borohydride oxidation mechanism at Pd-Ir electrodes, density functional theory (DFT) was used to examine the reaction mechanism at Pd₂-Ir₁(111) and Pd_2-Ir₂(111) surfaces. The competition between borohydride oxidation and hydrogen evolution on the Pd-Ir alloys is compared with that on pure Pd(111), suggesting that the presence of Ir favors borohydride oxidation rather than hydrogen evolution.