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Towards maximized utilization of iridium for the acidic oxygen evolution reaction

by Ledendecker, Marc , Geiger, Simon , Mayrhofer, Karl J. J. , Jalalpoor, Daniel , Cherevko, Serhiy , Schüth, Ferdi , Göhl, Daniel , Fortunato, Guilherme V. , Lim, Joohyun , Scheu, Christina , Hengge, Katharina , Mingers, Andrea M.

in Atomic layer epitaxy / Atomic/Molecular Structure and Spectra / Biomedicine / Biotechnology / Catalysis / Catalysts / Chemistry and Materials Science / Commercialization / Condensed Matter Physics / Electrolytes / Energy industry / Evolution / Iridium / Ligands / Materials Science / Metal films / Nanoparticles / Nanotechnology / Noble metals / Oxygen / Oxygen evolution reactions / Polymers / Research Article / Service life / Stability / Substrates / Thickness / Thin films / Tin / Tin oxide / Tin oxides

2019

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Towards maximized utilization of iridium for the acidic oxygen evolution reaction

2019

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2019

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Journal Article

Towards maximized utilization of iridium for the acidic oxygen evolution reaction

Ledendecker, Marc,

Geiger, Simon,

Mayrhofer, Karl J. J.,

Jalalpoor, Daniel,

Cherevko, Serhiy,

Schüth, Ferdi,

Göhl, Daniel,

Fortunato, Guilherme V.,

Lim, Joohyun,

Scheu, Christina,

Hengge, Katharina,

Mingers, Andrea M.

2019

Overview

The reduction in noble metal content for efficient oxygen evolution catalysis is a crucial aspect towards the large scale commercialisation of polymer electrolyte membrane electrolyzers. Since catalytic stability and activity are inversely related, long service lifetime still demands large amounts of low-abundant and expensive iridium. In this manuscript we elaborate on the concept of maximizing the utilisation of iridium for the oxygen evolution reaction. By combining different tin oxide based support materials with liquid atomic layer deposition of iridium oxide, new possibilities are opened up to grow thin layers of iridium oxide with tuneable noble metal amounts. In-situ , time- and potential-resolved dissolution experiments reveal how the stability of the substrate and the catalyst layer thickness directly affect the activity and stability of deposited iridium oxide. Based on our results, we elaborate on strategies how to obtain stable and active catalysts with maximized iridium utilisation for the oxygen evolution reaction and demonstrate how the activity and durability can be tailored correspondingly. Our results highlight the potential of utilizing thin noble metal films with earth abundant support materials for future catalytic applications in the energy sector.

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Publisher

Tsinghua University Press

Subject

Atomic layer epitaxy

/ Atomic/Molecular Structure and Spectra

/ Chemistry and Materials Science