Effect of preparation method on the solid state properties and the deN2O performance of CuO–CeO2 oxides

M. Konsolakis; S. A. C. Carabineiro; E. Papista; G. E. Marnellos; P. B. Tavares; J. Agostinho Moreira; Y. Romaguera-Barcelay; J. L. Figueiredo

doi:10.1039/C5CY00343A

Effect of preparation method on the solid state properties and the deN₂O performance of CuO–CeO₂ oxides

M. Konsolakis,*^a S. A. C. Carabineiro,^b E. Papista,^c G. E. Marnellos,^cd P. B. Tavares,^e J. Agostinho Moreira,^f Y. Romaguera-Barcelay^f and J. L. Figueiredo^b

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^a School of Production Engineering and Management, Technical University of Crete, 73100 Chania, Greece
E-mail: mkonsol@science.tuc.gr
Web: http://www.tuc.gr/konsolakis.html
Tel: +30 28210 37682

^b Laboratório de Catálise e Materiais (LCM), Laboratório Associado LSRE/LCM, Faculdade de Engenharia, Universidade do Porto, 4200-465 Porto, Portugal

^c Department of Mechanical Engineering, University of Western Macedonia, GR-50100 Kozani, Greece

^d Chemical Process & Energy Resources Institute, Centre for Research & Technology Hellas, Thessaloniki, Greece

^e CQVR Centro de Química–Vila Real, Dep. Química, Universidade de Trás-os-Montes e Alto Douro, 5001-911 Vila Real, Portugal

^f IFIMUP and IN-Inst. Nanoscience and Nanotechnology, Departamento de Física e Astronomia da Faculdade de Ciências, Universidade do Porto, 4169-007 Porto, Portugal

Abstract

The present work aims at investigating the catalytic decomposition of N₂O over CuO–CeO₂ single or mixed oxides prepared by different synthesis routes, i.e., impregnation, precipitation and exotemplating. To gain insight into the particular role of CeO₂ as well as of CuO–CeO₂ interactions, three different types of materials were prepared and tested for N₂O decomposition both in the absence and presence of excess O₂: (i) bare CeO₂ prepared by precipitation and exotemplating, (ii) CuO/CeO₂ oxides synthesized by the impregnation of CeO₂ samples prepared in (i) with CuO, and iii) single stage CuO–CeO₂ mixed oxides synthesized employing the co-precipitation and exotemplating methods. The corresponding commercial samples were also examined for comparison purposes. All materials were characterized by N₂ adsorption at −196 °C, X-ray diffraction (XRD), H₂ temperature-programmed reduction (H₂-TPR), X-ray photoelectron spectroscopy (XPS), micro-Raman spectroscopy (micro-Raman) and scanning electron microscopy (SEM). The results demonstrated the key role of the preparation procedure on the direct catalytic decomposition of N₂O. Among the bare CeO₂ samples, the best performance was obtained with the samples prepared by the precipitation method, followed by exotemplating, while commercial CeO₂ showed the lowest performance. All bare oxides demonstrated low N₂O conversion, never exceeding 40% at 600 °C. Amongst the CuO–CeO₂ oxides, the optimum performance was observed for those prepared by co-precipitation, which achieved complete N₂O conversion at 550 °C. In the presence of excess oxygen in the feed stream, a slight degradation is observed, with the sequence of deN₂O performance remaining unchanged. The superiority of the Cu–Ce mixed oxides prepared by precipitation compared to all of the other materials can be mainly ascribed to their excellent redox properties, linked to Ce⁴⁺/Ce³⁺ and Cu²⁺/Cu⁺ redox pairs. A redox mechanism for the N₂O catalytic decomposition is proposed, involving N₂O adsorption on Cu⁺ sites and their regeneration through Cu–ceria interactions.

Catalysis Science & Technology

Effect of preparation method on the solid state properties and the deN₂O performance of CuO–CeO₂ oxides

Abstract

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Effect of preparation method on the solid state properties and the deN₂O performance of CuO–CeO₂ oxides

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