Maxime Lortie scite author profile

Maxime Lortie

4Publications

9Citation Statements Received

112Citation Statements Given

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University of Ottawa

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Use of CuNi/YSZ and CuNi/SDC Catalysts for the Reverse Water Gas Shift Reaction

Lortie

Isaifan

2015

Journal of Catalysts

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Cu 50 Ni 50 nanoparticles were synthesized using a modified polyol method and deposited on samarium-doped ceria, SDC, and yttria-stabilized zirconia, YSZ, supports to form reverse water-gas shift, RWGS, catalysts. The best CO yields, obtained with the Cu 50 Ni 50 /SDC catalyst, were about 90% of the equilibrium CO yields. In contrast CO yields using Pt/SDC catalysts were equal to equilibrium CO yields at 700 ∘ C. Catalyst selectivity to CO was 100% at hydrogen partial pressures equal to CO 2 partial pressures, 1 kPa, and decreased as methane was formed when the hydrogen partial pressure was 2 kPa or greater. The reaction results were explained using a combination of Eley-Rideal and Langmuir-Hinshelwood mechanisms that involved adsorption on the metal surface and the concentration of oxygen vacancies in the support. Finally the Cu 50 Ni 50 /SDC catalyst was found to be thermally stable for 48 hours at 600/700 ∘ C.

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Synthesis of CuNi/C and CuNi/γ-Al₂O₃Catalysts for the Reverse Water Gas Shift Reaction

Lortie

Isaifan

Liu

et al. 2015

International Journal of Chemical Engineering

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A new polyol synthesis method is described in which CuNi nanoparticles of different Cu/Ni atomic ratios were supported on both carbon and gamma-alumina and compared with Pt catalysts using the reverse water gas shift, RWGS, reaction. All catalysts were highly selective for CO formation. The concentration of CH4was less than the detection limit. Cu was the most abundant metal on the CuNi alloy surfaces, as determined by X-ray photoelectron spectroscopy, XPS, measurements. Only one CuNi alloy catalyst, Cu50Ni50/C, appeared to be as thermally stable as the Pt/C catalysts. After three temperature cycles, from 400 to 700°C, the CO yield at 700°C obtained using the Cu50Ni50/C catalyst was comparable to that obtained using a Pt/C catalyst.

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Reverse Water Gas Shift Reaction over Supported Cu-Ni Nanoparticle Catalysts

Lortie¹

2014

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Reverse Water Gas Shift Reaction Over Pt Nanoparticles Supported On Oxygen Ion Conductive Ceramics

et al. 2013

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Maxime Lortie

Use of CuNi/YSZ and CuNi/SDC Catalysts for the Reverse Water Gas Shift Reaction

Synthesis of CuNi/C and CuNi/γ-Al₂O₃Catalysts for the Reverse Water Gas Shift Reaction

Reverse Water Gas Shift Reaction over Supported Cu-Ni Nanoparticle Catalysts

Reverse Water Gas Shift Reaction Over Pt Nanoparticles Supported On Oxygen Ion Conductive Ceramics

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Maxime Lortie

Use of CuNi/YSZ and CuNi/SDC Catalysts for the Reverse Water Gas Shift Reaction

Synthesis of CuNi/C and CuNi/γ-Al2O3Catalysts for the Reverse Water Gas Shift Reaction

Reverse Water Gas Shift Reaction over Supported Cu-Ni Nanoparticle Catalysts

Reverse Water Gas Shift Reaction Over Pt Nanoparticles Supported On Oxygen Ion Conductive Ceramics

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Synthesis of CuNi/C and CuNi/γ-Al₂O₃Catalysts for the Reverse Water Gas Shift Reaction