Al2Pt for oxygen evolution reaction in water splitting: a strategy for creating multi-functionality in electrocatalysis

Figure 1. Atomic QTAIM basins of platinum and aluminium ( transparent ) and Al-P
Figure 1. Atomic QTAIM basins of platinum and aluminium ( transparent ) and Al-Pt bond basin ( red ) in the Al2Pt compound, revealing the pronounced charge transfer from Al to Pt atoms and polar character of Al-Pt atomic interactions. © MPI CPfS

Al2Pt for oxygen evolution reaction in water splitting: a strategy for creating multi-functionality in electrocatalysis

The transition from fossil fuels to renewable energy sources strongly depends on an availability of effective systems for energy conversion and storage. Considering hydrogen as a carrier molecule, proton exchange membrane electrolysis offers numerous advantages, like operation at high current densities, low gas crossover, compact system design etc. However, its wide implementation is hindered by slow kinetics of oxygen evolution reaction (OER), enhancement of which requires the application of low-abundant and expensive Ir-based electrocatalysts. ...

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