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Investigation on converting 1-butene and ethylene into propene via metathesis reaction over W-based catalysts

Supported W catalysts were extensively investigated for the conversion of 1-butene and ethylene into propene by metathesis reaction. The performance of catalysts was compared by using unsupported WO(3), pure SBA-15, supported W/SBA-15 with different W loadings, varied calcination temperatures, and b...

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Autores principales: Zuo, Guangzheng, Xu, Yuebing, Zheng, Jiao, Jiang, Feng, Liu, Xiaohao
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Royal Society of Chemistry 2018
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9078573/
https://www.ncbi.nlm.nih.gov/pubmed/35542031
http://dx.doi.org/10.1039/c7ra13776a
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author Zuo, Guangzheng
Xu, Yuebing
Zheng, Jiao
Jiang, Feng
Liu, Xiaohao
author_facet Zuo, Guangzheng
Xu, Yuebing
Zheng, Jiao
Jiang, Feng
Liu, Xiaohao
author_sort Zuo, Guangzheng
collection PubMed
description Supported W catalysts were extensively investigated for the conversion of 1-butene and ethylene into propene by metathesis reaction. The performance of catalysts was compared by using unsupported WO(3), pure SBA-15, supported W/SBA-15 with different W loadings, varied calcination temperatures, and by changing the pretreatment gas atmosphere. The above catalytic results could be employed to deduce the reaction mechanism combined with characterization techniques such as BET, XRD, UV-vis DRS, Raman, pyridine-IR, XPS, and H(2)-TPR. In this study, over the investigated W/SBA-15 catalysts, the results showed that the silanol group (Si–OH) in SBA-15 could act as a weak Brønsted acid site for 1-butene isomerization. However, the metathesis reaction was catalyzed by W-carbene species. The initially formed W-carbenes (W[double bond, length as m-dash]CH–CH(3)) as active sites were derived from the partially reduced isolated tetrahedral WO(x) species which contained W[double bond, length as m-dash]O or W–OH bonds in W(5+) species as corresponding Lewis or Brønsted acid sites. Furthermore, the W/SBA-15 being pretreated by H(2)O led to a complete loss of the metathesis activity. This was mainly due to the sintering of isolated WO(x) species to form an inactive crystalline WO(3) phase as demonstrated by XRD patterns. On the other hand, the reduction of WO(x) species remarkably suppressed by H(2)O pretreatment was also responsible for the metathesis deactivation. This study provides molecular level mechanisms for the several steps involved in the propene production, including 1-butene isomerization, W-carbene formation, and metathesis reaction.
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spelling pubmed-90785732022-05-09 Investigation on converting 1-butene and ethylene into propene via metathesis reaction over W-based catalysts Zuo, Guangzheng Xu, Yuebing Zheng, Jiao Jiang, Feng Liu, Xiaohao RSC Adv Chemistry Supported W catalysts were extensively investigated for the conversion of 1-butene and ethylene into propene by metathesis reaction. The performance of catalysts was compared by using unsupported WO(3), pure SBA-15, supported W/SBA-15 with different W loadings, varied calcination temperatures, and by changing the pretreatment gas atmosphere. The above catalytic results could be employed to deduce the reaction mechanism combined with characterization techniques such as BET, XRD, UV-vis DRS, Raman, pyridine-IR, XPS, and H(2)-TPR. In this study, over the investigated W/SBA-15 catalysts, the results showed that the silanol group (Si–OH) in SBA-15 could act as a weak Brønsted acid site for 1-butene isomerization. However, the metathesis reaction was catalyzed by W-carbene species. The initially formed W-carbenes (W[double bond, length as m-dash]CH–CH(3)) as active sites were derived from the partially reduced isolated tetrahedral WO(x) species which contained W[double bond, length as m-dash]O or W–OH bonds in W(5+) species as corresponding Lewis or Brønsted acid sites. Furthermore, the W/SBA-15 being pretreated by H(2)O led to a complete loss of the metathesis activity. This was mainly due to the sintering of isolated WO(x) species to form an inactive crystalline WO(3) phase as demonstrated by XRD patterns. On the other hand, the reduction of WO(x) species remarkably suppressed by H(2)O pretreatment was also responsible for the metathesis deactivation. This study provides molecular level mechanisms for the several steps involved in the propene production, including 1-butene isomerization, W-carbene formation, and metathesis reaction. The Royal Society of Chemistry 2018-02-22 /pmc/articles/PMC9078573/ /pubmed/35542031 http://dx.doi.org/10.1039/c7ra13776a Text en This journal is © The Royal Society of Chemistry https://creativecommons.org/licenses/by-nc/3.0/
spellingShingle Chemistry
Zuo, Guangzheng
Xu, Yuebing
Zheng, Jiao
Jiang, Feng
Liu, Xiaohao
Investigation on converting 1-butene and ethylene into propene via metathesis reaction over W-based catalysts
title Investigation on converting 1-butene and ethylene into propene via metathesis reaction over W-based catalysts
title_full Investigation on converting 1-butene and ethylene into propene via metathesis reaction over W-based catalysts
title_fullStr Investigation on converting 1-butene and ethylene into propene via metathesis reaction over W-based catalysts
title_full_unstemmed Investigation on converting 1-butene and ethylene into propene via metathesis reaction over W-based catalysts
title_short Investigation on converting 1-butene and ethylene into propene via metathesis reaction over W-based catalysts
title_sort investigation on converting 1-butene and ethylene into propene via metathesis reaction over w-based catalysts
topic Chemistry
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9078573/
https://www.ncbi.nlm.nih.gov/pubmed/35542031
http://dx.doi.org/10.1039/c7ra13776a
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