Characterization of Pt,Sn/Mg(Al)O Catalysts for Light Alkane Dehydrogenation by FT-IR Spectroscopy and Catalytic Measurements

Citations Over Time

Abstract

The Pt function in Pt,Sn/Mg(Al)O and in Pt/Mg(Al)O catalysts has been studied by a combination of catalytic testing for ethane dehydrogenation at 450−650 °C under a C2H6/H2/CO2/N2/Ar = 10:1.6:6.8:5.9:75.7 flow and Fourier transform infrared spectroscopy (FT-IR), using CO as a probe molecule. The acid−base properties of the support were also investigated by FT-IR, using CH3CN as a probe molecule. CO adsorption experiments revealed the presence of Pt terraces, as well as Pt sites with low coordination number (steps, edges, corners, or defects) on Pt/Mg(Al)O. The same experiments on Pt,Sn/Mg(Al)O revealed that Sn covers the steps, corners, edges, and defects of the Pt particles, thus developing simultaneously a geometric and a chemical effect on the surface properties of the exposed Pt atoms. Accordingly, the ethane dehydrogenation reaction proceeds with a lower activation energy over Pt,Sn/Mg(Al)O compared to Pt/Mg(Al)O. Further, Sn addition leads to more selective and more stable ethane dehydrogenation catalysts. The higher dehydrogenation selectivity of Pt,Sn catalysts was correlated to the masking of low-coordinated Pt sites. The Pt/Mg(Al)O and Pt,Sn/Mg(Al)O catalysts were subjected to an activation procedure consisting of several test−regeneration cycles. Good correlation was found between the number of accessible Pt sites and the catalytic activity after each cycle.

Related Papers

• → In situ X-ray diffraction study of dehydrogenation of MgH2 with Ti-based additives(2014)34 cited
• → A kinetics study on continuous dehydrogenation of dodecahydro‐N‐ethylcarbazole(2024)4 cited
• → The catalytic effect of ZrCl4 on thermal dehydrogenation LiAlD4(2020)4 cited
• → Synthesis of Zn2TiO4 via solid-state method as a promising additive for dehydrogenation properties of NaAlH4(2023)3 cited
• → Dehydrogenation – Biological(2002)