The role of oxygen-vacancy in bifunctional indium oxyhydroxide catalysts for electrochemical coupling of biomass valorization with CO2 conversion

Abstract Electrochemical coupling of biomass valorization with carbon dioxide (CO 2 ) conversion provides a promising approach to generate value-added chemicals on both sides of the electrolyzer. Herein, oxygen-vacancy-rich indium oxyhydroxide (InOOH-O V ) is developed as a bifunctional catalyst for CO 2 reduction to formate and 5-hydroxymethylfurfural electrooxidation to 2,5-furandicarboxylic acid with faradaic efficiencies for both over 90.0% at optimized potentials. Atomic-scale electron microscopy images and density functional theory calculations reveal that the introduction of oxygen vacancy sites causes lattice distortion and charge redistribution. Operando Raman spectra indicate oxygen vacancies could…

• NN
  National Natural Science Foundation of China

  Award: 52172179
• AR
  Australian Research Council

  Awards: CE230100032, FL190100126
• NK
  National Key Research and Development Program of China

  Award: 2021YFC2103704
• FR
  Fundamental Research Funds for the Central Universities

  Awards: CE230100032, buctrc202118