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Nanostructured PtBi Alloy Enables Direct Oxidation of Linear α-Alcohols to Fatty Acids

Luyao Guo, Xiaoyan Liu, Ziang Zhao, Ronghe Lin, Yu Meng, Xinzheng Ma, Yihui Li, Xiaoling Mou, Yan Li, Hejun Zhu, Yunjie Ding

2023ACS Catalysis20 citationsDOI

Abstract

Nanostructured bimetallic Pt–Bi catalysts are designed by defect engineering of N-doped carbons as the hosts. The optimal catalyst delivers good yields (>98%) in the direct oxidation of C 5 –C 9 linear α-alcohols to corresponding fatty acids, significantly outperforming activated carbon-supported benchmarks and rivaling the state-of-the-art systems. A combined kinetic and computational study on n -heptanol oxidation as a model reaction unveils the kinetic and thermodynamic origins of the better performance of the PtBi alloy than neat or Bi-modified Pt(111) surfaces. Structure–performance correlations further identify that the metal particle size, surface Bi/Pt ratio, and strong basicity strongly influence the catalyst performance in alcohol oxidation. The creation of nitrogen defects facilitates the formation of the surface PtBi alloy and brings strong basicity, accounting for the boosted performance. These findings enable a step closer toward the manufacture of valuable fatty acids from abundant coal by coupling the advanced oxidation with the recently piloted higher alcohol synthesis via the Co–Co 2 C-catalyzed Fischer–Tropsch reaction.

Topics & Concepts

Bimetallic stripCatalysisAlloyChemical engineeringChemistryAlcohol oxidationCarbon fibersParticle (ecology)MetalMaterials scienceInorganic chemistryOrganic chemistryComposite materialGeologyEngineeringComposite numberOceanographyCatalytic Processes in Materials ScienceElectrocatalysts for Energy ConversionCatalysis and Hydrodesulfurization Studies
Nanostructured PtBi Alloy Enables Direct Oxidation of Linear α-Alcohols to Fatty Acids | Litcius