Login / Signup

Cascaded p-d Orbital Hybridization Interaction in Ultrathin High-Entropy Alloy Nanowires Boosts Complete Non-CO Pathway of Methanol Oxidation Reaction.

Yipin LvPei LiuRuixin XueQiudi GuoJinyu YeDaowei GaoGuangce JiangShiju ZhaoLixia XieYunlai RenPengfang ZhangYao WangYuchen Qin
Published in: Advanced science (Weinheim, Baden-Wurttemberg, Germany) (2024)
Designing high efficiency platinum (Pt)-based catalysts for methanol oxidation reaction (MOR) with high "non-CO" pathway selectivity is strongly desired and remains a grand challenge. Herein, PtRuNiCoFeGaPbW HEA ultrathin nanowires (HEA-8 UNWs) are synthesized, featuring unique cascaded p-d orbital hybridization interaction by inducing dual p-block metals (Ga and Pb). In comparison with Pt/C, HEA-8 UNWs exhibit 15.0- and 4.2-times promotion of specific and mass activity for MOR. More importantly, electrochemical in situ FITR spectroscopy reveals that the production/adsorption of CO (CO * ) intermediate is effectively avoided on HEA-8 UNWs, leading to the complete "non-CO" pathway for MOR. Theoretical calculations demonstrate the optimized electronic structure of HEA-8 UNWs can facilitates a lower energy barrier for the "non-CO" pathway in the MOR.
Keyphrases
  • high efficiency
  • single molecule
  • hydrogen peroxide
  • room temperature
  • high resolution
  • pet ct
  • heavy metals
  • electron transfer
  • nitric oxide
  • risk assessment
  • label free
  • carbon dioxide
  • human health
  • tandem mass spectrometry