Hydrogen evolution in alkaline medium on intratube and surface decorated PtRu catalyst
For anion exchange membrane (AEM) electrolysis, challenges include finding an optimal catalyst for hydrogen evolution reaction (HER), as the noble metals are scarce while non-noble metals are inferior. Here, the noble metal amount is reduced in a straightforward solution synthesis which produces Pt-Ru surface nanoparticles and unique intratube nanowires decorated on single walled carbon nanotubes (SWNT). In half-cell tests, 5 wtPtRu-% Pt-Ru SWNT demonstrates stable 10 mA cm− 2 HER current at 46 mV overpotential and outperforms commercial electrocatalysts. When integrated in an AEM electrolyser, a high current density of 500 mA cm− 2 at a low voltage of 1.72 V is achieved with 34 µg cm− 2 metal loading. First-principles calculations reveal that both the Pt-Ru alloy nanoparticle and intratube nanowires promote near optimal H* binding energy, thereby releasing the H2 faster. Thus, our approach yields an active low metal loading alkaline HER catalyst without sacrificing the performance in an AEM electrolyser.
Funding
Critical Raw materials Elimination by a top-down Approach To hydrogen and Electricity generation
European Commission
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Publication
Applied Catalysis B: Environmental, 315, 121541Publisher
ElsevierOther Funding information
ICHECAlso affiliated with
- Bernal Institute
External identifier
Department or School
- Chemical Sciences