Abstract
AbstractTwo series of Pt/γ‐Al2O3 catalysts for low temperature NH3 oxidation were prepared using Pt(NO3)4 and H2PtCl6 precursors. Using both precursors results in the formation of small Pt particles (d<1.5 nm), however, Cl‐containing Pt precursors give a higher fraction of highly dispersed Pt species. Such species show high stability against thermal or H2 treatment probably due to the presence of a substantial amount of chlorine on the surface. Treatment of the samples prepared from Pt(NO3)4 with H2 leads to the formation of metallic Pt nanoparticles accompanied by the improvement of catalytic activity in NH3 oxidation at T<200 °C. The main products of ammonia oxidation at temperatures below 250 °C were molecular nitrogen and nitrous oxide with the N2 selectivity reaching 80 %. Operando XANES/EXAFS revealed that even after H2 pretreatment at least 40 % of Pt surface remains in oxidized state under reaction conditions resulting in the appearance of N2O as a by‐product.
Highlights
Two series of Pt/γ-Al2O3 catalysts for low temperature NH3 oxidation were prepared using Pt(NO3)4 and H2PtCl6 precursors
The Fourier transformed (FT) extended X-ray absorption fine structure (EXAFS) spectrum of Pt-N-400-250H allows identifying the formation of Pt nanoparticles while the Pt-Cl samples are largely oxidized and no significant Pt Pt interaction corresponding to metallic Pt can be identified
Two Pt/Al2O3 systems were thoroughly investigated by a systematic variation of the pretreatment and the combination of physicochemical techniques
Summary
The X-ray diffraction patterns of the pristine. Pt-N-400 and Pt-Cl-400 catalysts show only reflections stemming from the of γ-Al2O3 phase (ICDD PDF-2 # 29-0063). The difference curves of the X-ray patterns of the Al2O3 support and. Reduction of the Pt-N-400 with H2 results in the appearance of small reflections from metallic Pt. Reduction at °C leads to the increase of the Pt particle size. The average size of Pt0 crystallites determined by the Rietveld method was
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