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Literature DB >> 26185806

The formation and degradation of active species during methanol conversion over protonated zeotype catalysts.

U Olsbye¹, S Svelle, K P Lillerud, Z H Wei, Y Y Chen, J F Li, J G Wang, W B Fan.

Abstract

The methanol to hydrocarbon (MTH) process provides an efficient route for the conversion of carbon-based feedstocks into olefins, aromatics and gasoline. Still, there is room for improvements in product selectivity and catalytic stability. This task calls for a fundamental understanding of the formation, catalytic mechanism and degradation of active sites. The autocatalytic feature of the MTH process implies that hydrocarbons are active species on the one hand and deactivating species on the other hand. The steady-state performance of such species has been thoroughly studied and reviewed. However, the mechanism of formation of the initial hydrocarbon species (i.e.; the first C-C bond) and the evolution of active species into deactivating coke species have received less attention. Therefore, this review focuses on the significant progress recently achieved in these two stages by a combination of theoretical calculations, model studies, operando spectroscopy and catalytic tests.

Entities: Chemical

Year: 2015 PMID： 26185806 DOI： 10.1039/c5cs00304k

Source DB: PubMed Journal: Chem Soc Rev ISSN： 0306-0012 Impact factor: 54.564

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Cited

27 in total

1. Dynamic Activation of C1 Molecules Evoked by Zeolite Catalysis.

Authors: Xinqiang Wu; Wei Chen; Shutao Xu; Shanfan Lin; Tantan Sun; Anmin Zheng; Yingxu Wei; Zhongmin Liu
Journal: ACS Cent Sci Date: 2021-03-24 Impact factor: 14.553

2. Effects of Coke Deposits on the Catalytic Performance of Large Zeolite H-ZSM-5 Crystals during Alcohol-to-Hydrocarbon Reactions as Investigated by a Combination of Optical Spectroscopy and Microscopy.

Authors: Emily C Nordvang; Elena Borodina; Javier Ruiz-Martínez; Rasmus Fehrmann; Bert M Weckhuysen
Journal: Chemistry Date: 2015-10-14 Impact factor: 5.236

3. Initial Carbon-Carbon Bond Formation during the Early Stages of the Methanol-to-Olefin Process Proven by Zeolite-Trapped Acetate and Methyl Acetate.

Authors: Abhishek Dutta Chowdhury; Klaartje Houben; Gareth T Whiting; Mohamed Mokhtar; Abdullah M Asiri; Shaeel A Al-Thabaiti; Suliman N Basahel; Marc Baldus; Bert M Weckhuysen
Journal: Angew Chem Int Ed Engl Date: 2016-11-02 Impact factor: 15.336

4. Influence of the Reaction Temperature on the Nature of the Active and Deactivating Species During Methanol-to-Olefins Conversion over H-SAPO-34.

Authors: E Borodina; H Sharbini Harun Kamaluddin; F Meirer; M Mokhtar; A M Asiri; S A Al-Thabaiti; S N Basahel; J Ruiz-Martinez; B M Weckhuysen
Journal: ACS Catal Date: 2017-07-12 Impact factor: 13.084

5. Revealing Lattice Expansion of Small-Pore Zeolite Catalysts during the Methanol-to-Olefins Process Using Combined Operando X-ray Diffraction and UV-vis Spectroscopy.

Authors: Joris Goetze; Irina Yarulina; Jorge Gascon; Freek Kapteijn; Bert M Weckhuysen
Journal: ACS Catal Date: 2018-02-06 Impact factor: 13.084

6. Insights into the Activity and Deactivation of the Methanol-to-Olefins Process over Different Small-Pore Zeolites As Studied with Operando UV-vis Spectroscopy.

Authors: Joris Goetze; Florian Meirer; Irina Yarulina; Jorge Gascon; Freek Kapteijn; Javier Ruiz-Martínez; Bert M Weckhuysen
Journal: ACS Catal Date: 2017-05-16 Impact factor: 13.084

10. Reactions of Dimethylether in Single Crystals of the Silicoaluminophosphate STA-7 Studied via Operando Synchrotron Infrared Microspectroscopy.

Authors: Russell F Howe; David J Price; Maria Castro; Paul A Wright; Alex Greenaway; Mark D Frogley; Gianfelice Cinque
Journal: Top Catal Date: 2018-01-16 Impact factor: 2.910