Selective CO production from CO 2 over a metal catalyst supported on perovskite oxide in the presence of excess hydrogen
Hydrogenation of carbon dioxide (CO 2 ) to liquid fuels via an industrial catalytic reaction is the most effective strategy for the realization of carbon neutrality. The sequential reaction system of a reverse water–gas shift (RWGS) reaction followed by Fischer–Tropsch synthesis is a promising way t...
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Published in | Catalysis science & technology Vol. 14; no. 20; pp. 6076 - 6084 |
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Main Authors | , , , , , , , |
Format | Journal Article |
Language | English |
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14.10.2024
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Abstract | Hydrogenation of carbon dioxide (CO 2 ) to liquid fuels via an industrial catalytic reaction is the most effective strategy for the realization of carbon neutrality. The sequential reaction system of a reverse water–gas shift (RWGS) reaction followed by Fischer–Tropsch synthesis is a promising way to achieve this; hence, the development of catalysts with high conversion efficiency and selectivity for RWGS is required. We succeeded in the conversion of CO 2 into carbon monoxide (CO) with a selectivity of 100% in the gas phase using a platinum-loaded perovskite oxide support composed of barium and zirconium, in which 10% of zirconium was substituted with yttrium (Pt/BaZr 0.9 Y 0.1 O 3− δ , Pt/BZY10) at 500 °C in the gas stream with H 2 /CO 2 = 3. Furthermore, a ruthenium-loaded catalyst (Ru/BZY10) afforded not only CO but also methane (CH 4 ) as gaseous products. Kinetic analysis demonstrated that the activation energy was identical for both catalysts, and Fourier transform infrared spectroscopy clarified that the surface-adsorbed methoxy group was generated as a reaction intermediate only in the case of Ru/BZY10, which indicated the ability of the loaded metal for the dissociative adsorption of hydrogen. The present research is expected to provide a new methodology for the preparation of catalysts for the RWGS reaction and a quite important insight for the realization of carbon neutrality. |
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AbstractList | Hydrogenation of carbon dioxide (CO 2 ) to liquid fuels via an industrial catalytic reaction is the most effective strategy for the realization of carbon neutrality. The sequential reaction system of a reverse water–gas shift (RWGS) reaction followed by Fischer–Tropsch synthesis is a promising way to achieve this; hence, the development of catalysts with high conversion efficiency and selectivity for RWGS is required. We succeeded in the conversion of CO 2 into carbon monoxide (CO) with a selectivity of 100% in the gas phase using a platinum-loaded perovskite oxide support composed of barium and zirconium, in which 10% of zirconium was substituted with yttrium (Pt/BaZr 0.9 Y 0.1 O 3− δ , Pt/BZY10) at 500 °C in the gas stream with H 2 /CO 2 = 3. Furthermore, a ruthenium-loaded catalyst (Ru/BZY10) afforded not only CO but also methane (CH 4 ) as gaseous products. Kinetic analysis demonstrated that the activation energy was identical for both catalysts, and Fourier transform infrared spectroscopy clarified that the surface-adsorbed methoxy group was generated as a reaction intermediate only in the case of Ru/BZY10, which indicated the ability of the loaded metal for the dissociative adsorption of hydrogen. The present research is expected to provide a new methodology for the preparation of catalysts for the RWGS reaction and a quite important insight for the realization of carbon neutrality. |
Author | Izutani, Kensuke Konno, Hikaru Tashiro, Keigo Satokawa, Shigeo Yanagita, Akihide Doi, Wataru Furukawa, Takayuki Sekizawa, Shinnosuke |
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