Polar bonds induced strong Pd-support electronic interaction drives remarkably enhanced oxygen reduction activity and stability

Abstract

The strong metal-support interaction (SMSI) effect is attractive for improving the activity and durability of metal catalyst. Here, we uncovered that the strong polar bond in support can significantly boost the electrocatalytic oxygen reduction activity and durability of Pd nanoparticles (NPs). The mass-specific activity and surface-specific activity of optimized Pd/p-BNO at 0.90 V (vs.RHE) is almost 1.9 and 2.2 times higher than that of commercial Pt/C catalyst, respectively. By means of a joint experimental and computational study, the enhanced activity of Pd/p-BNO stems from the electron directly transfer through the strong polar OB bonds from support to Pd NPs leading to the electron-rich Pd surface. Moreover, the strong bonding effect of the caused by polarity bond effectively improves the stability of Pd/p-BNO. This progress demonstrates the vital role of polar chemical bonds in support on inducing SMSI effect, which might open up new opportunities in designing superior heterogeneous catalysts.