Tailoring the reducibility and catalytic activity of CuO nanoparticles for low temperature CO oxidation
Author | Zedan, Abdallah F. |
Author | Mohamed, Assem T. |
Author | El-Shall, M. Samy |
Author | AlQaradawi, Siham Y. |
Author | AlJaber, Amina S. |
Available date | 2024-03-25T06:42:38Z |
Publication Date | 2018 |
Publication Name | RSC Advances |
Resource | Scopus |
ISSN | 20462069 |
Abstract | Copper oxide (CuO) nanoparticles have received considerable interest as active and inexpensive catalysts for various gas–solid reactions. The CuO reducibility and surface reactivity are of crucial importance for the high catalytic activity. Herein, we demonstrate that the reducibility and stability of CuO nanoparticles can be controlled and tailored for the high catalytic activity of CO oxidation. The synthesized CuO nanoparticles possessed enhanced reducibility in CO atmosphere at lower reduction temperature of 126 °C compared to 284 °C for that of reference CuO particles. Moreover, the CuO catalysts with tailored reducibility demonstrated a reaction rate of 35 μmol s−1 g−1 and an apparent activation energy of 75 kJ mol−1. Furthermore, the tailored catalysts exhibited excellent long-term stability for CO oxidation for up to 48 h on stream. These readily-reducible CuO nanoparticles could serve as efficient, inexpensive and durable catalysts for CO oxidation at low temperatures. |
Sponsor | This work was made possible by the grant number NPRP 8-1912-1-354 from the Qatar National Research Fund (a member of Qatar Foundation). The statements made herein are solely the responsibility of the authors. The authors would like to thank Mr Mahmoud M. Tarfaya and Mr Belal S. Hussien for their assistance in the laboratory. |
Language | en |
Publisher | Royal Society of Chemistry |
Subject | Activation energy Atmospheric temperature Catalytic oxidation Copper oxides Nanoparticles Oxidation Synthesis (chemical) Apparent activation energy CuO nanoparticles Gas-solid reaction Long term stability Low temperatures Low-temperature CO oxidation Reduction temperatures Surface reactivity Catalyst activity |
Type | Article |
Pagination | 19499-19511 |
Issue Number | 35 |
Volume Number | 8 |
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