Journal article
Ceria-supported niobium oxide catalyst for low-temperature oxidation of 1,3-butadiene
Molecular Catalysis, Vol.518, Art. 112083
2022
Abstract
Low-temperature oxidation represents an economically efficient way to convert spinoff hydrocarbons such as butadiene into nontoxic species. This study investigates the catalytic oxidation of 1,3-butadiene over ceria-supported niobium oxide, exploring the synthesis routes and catalytic performances. Experimental characterization techniques, including X-ray spectroscopy and diffractometry, microscopy, and other micro-characterisations, elucidate the structure of the catalysts as corroborated by the density functional theory (DFT) method. DFT calculations constructed the underlying oxidative reaction mechanisms that ensue through accessible activation energies in steps that feature subsequent Csingle bondC bond fissions, H transfer reactions, CO desorption, and formation of CO2 molecules. The results show that, the niobium oxide assumes mainly the form of Nb2O5 on ceria supports, and plays a significant role in switching the physicochemical nature of ceria and the resulting catalysts. Despite a relatively lower surface area, the NbOx/CeO2 catalysts exhibit superior performances in the conversion of butadiene compared to pure ceria. The catalyst prepared with 10 wt.% of Nb has the best catalytic performance with 82% conversion of butadiene, highest reaction rate, and selectivity towards CO2 of 95% at the temperature range of 300 – 400 °C and a gas hourly space velocity (GHSV) of 34,600 h−1. Obtained results entail practical environmental implications in the catalytic destruction of stable hydrocarbon species.
Details
- Title
- Ceria-supported niobium oxide catalyst for low-temperature oxidation of 1,3-butadiene
- Authors/Creators
- K. Razmgar (Author/Creator) - Murdoch UniversityM. Altarawneh (Author/Creator) - Murdoch UniversityI. Oluwoye (Author/Creator) - Murdoch UniversityG. Senanayake (Author/Creator) - Murdoch University
- Publication Details
- Molecular Catalysis, Vol.518, Art. 112083
- Publisher
- Elsevier
- Identifiers
- 991005545178807891
- Copyright
- © 2021 Elsevier B.V.
- Murdoch Affiliation
- School of Mathematics, Statistics, Chemistry and Physics
- Language
- English
- Resource Type
- Journal article
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- Collaboration types
- Domestic collaboration
- International collaboration
- Citation topics
- 2 Chemistry
- 2.41 Catalysts
- 2.41.25 Catalytic Oxidation
- Web Of Science research areas
- Chemistry, Physical
- ESI research areas
- Chemistry