A comparative study of edge-selective and face-specific growth of PdAg alloys on au nanoplates and their applications for the ethanol oxidation reaction

Abstract

We present the synthesis of two-dimensional Au–PdAg hybrid electrocatalysts with two distinct morphologies through site-specific deposition in seeded growth. The co-reduction of Pd and Ag precursors in the presence of plate-like Au seeds, using CTAC and CTAB as capping agents, led to edge- and face-specific deposition. This approach successfully and selectively engineered the interface between Au and PdAg phases along the edge region and upper/bottom faces, respectively. Our results demonstrate that the Au–PdAg products exhibit superior electrocatalytic activity and long-term durability for ethanol oxidation in alkaline media compared to commercial Pt/C electrocatalysts. DFT simulations further validated the advantages of constructing Au–PdAg interfaces over alloyed counterparts in EOR electrocatalysis. The current study offers a viable strategy for constructing two-dimensional trimetallic EOR electrocatalysts with well-defined interfaces, potentially paving the way for the rational design of high-performance fuel cell catalysts.