Factors Influencing the Performance of Pd/C Catalysts in the Green Production of Hydrogen from Formic Acid

Monika Zacharska, Lyubov G. Bulusheva, Alexander S. Lisitsyn, Sergey Beloshapkin, Yina Guo, Andrey L. Chuvilin, Elena V. Shlyakhova, Olga Y. Podyacheva, James J. Leahy, Alexander V. Okotrub, Dmitri A. Bulushev

Research output: Contribution to journalArticlepeer-review

42 Citations (Scopus)

Abstract

Formic acid derived from biomass is known to be used for hydrogen production over Pd catalysts. The effects of preparation variables, structure of the carbon support, surface functional composition on the state of Pd, and catalytic properties of the samples in the vapor-phase decomposition of formic acid were studied. In all catalysts derived from Pd acetate, metal particles visible by conventional TEM had similar sizes, but the adsorption capacity towards CO responded strongly to N-doping of the carbon surface. Moreover, a decrease in the CO/Pd values was accompanied by a significant increase in the reaction rate. Taking account of X-ray photoelectron spectroscopy (XPS) and atomic resolution high-angle annular dark-field scanning transmission electron microscopy (HAADF/STEM) data, the trends observed were assigned to a larger fraction of single electron-deficient Pd atoms in the N-doped samples, which do not adsorb CO but interact with formic acid to produce hydrogen. This was confirmed by extended DFT studies. The obtained results are valuable for the development of Pd catalysts on carbon supports for different processes.

Original languageEnglish
Pages (from-to)720-730
Number of pages11
JournalChemSusChem
Volume10
Issue number4
DOIs
Publication statusPublished - 22 Feb 2017

Keywords

  • biomass
  • carbon
  • doping
  • hydrogen
  • palladium
  • Carbon Monoxide
  • Carbon/chemistry
  • Biomass
  • Hydrogen/chemistry
  • Green Chemistry Technology/methods
  • Palladium/chemistry
  • Adsorption
  • Catalysis
  • Formates/chemistry
  • PALLADIUM
  • ROOM-TEMPERATURE
  • SELECTIVE OXIDATION
  • NANOFIBERS
  • MONOXIDE OXIDATION
  • DECOMPOSITION
  • NITROGEN-DOPED CARBON
  • NANOPARTICLES
  • DEHYDROGENATION
  • CLUSTERS

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