Facile synthesis of Pd@Ru nanoplates with controlled thickness as efficient catalysts for hydrogen evolution reaction

2018 
Ru-based nanoplates have received considerable attention in recent years because of their attractive catalytic properties originating from their unique two-dimensional structure. However, the synthesis of Ru-based nanoplates, especially for the thickness control at the atomic level, still remains challenging. Here we report the synthesis of Pd@Ru core–shell nanoplates, in which Ru atoms exhibit a face-centered cubic (fcc) structure rather than a hexagonal close-packed (hcp) structure of bulk Ru. The thickness of Pd@Ru nanoplates and even the crystal structure of Ru shells can be tuned by simply varying the amount of the Ru precursor. The Pd@Ru nanoplates first exhibit a remarkable increase in specific activity for the hydrogen evolution reaction (HER) with Ru shell thickness and then have a dramatic decrease when the thickness of the nanoplates reaches 2.6 nm due to the structure transition of Ru from fcc to hcp. Among them, the Pd@Ru nanoplates with a thickness of 2.3 nm exhibit the optimal HER activity with good stability, even outperforming commercial Ru/C and state-of-the-art Pt/C catalysts in alkaline solution.
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