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Selectively exposing active surfaces and judiciously tuning the near‐surface composition of electrode materials represent two prominent means of promoting electrocatalytic performance. Here, a new class of Pt3Fe zigzag‐like nanowires (Pt‐skin Pt3Fe z‐NWs) with stable high‐index facets (HIFs) and nanosegregated Pt‐skin structure is reported, which are capable of substantially boosting electrocatalysis...
Replacing platinum (Pt) with palladium (Pd) as the electrocatalytic materials is essential to address the technical barriers of unaffordable Pt usage in numerous renewable energy technologies, such as fuel cells, metal-air batteries, and water electrolyzers. In the past decades, both theoretical and experimental progresses have been made in advancing the Pd-based nanocatalysts, leading to catalytic...
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