“Inverted” Cyclic(Alkyl)(Amino)Carbene (CAAC) Ruthenium Complex Catalyzed Isomerization Metathesis (ISOMET) of Long Chain Olefins to Propylene at Low Ethylene Pressure-Reference-Cited by-同舟云学术

“Inverted” Cyclic(Alkyl)(Amino)Carbene (CAAC) Ruthenium Complex Catalyzed Isomerization Metathesis (ISOMET) of Long Chain Olefins to Propylene at Low Ethylene Pressure

Published:2024-03-14 Issue:19 Volume:11 Page:
ISSN:2198-3844
Container-title:Advanced Science
language:en
Short-container-title:Advanced Science

Author:

Farkas Vajk¹²^ORCID,Csókás Dániel³^ORCID,Erdélyi Ádám¹⁴^ORCID,Turczel Gábor¹^ORCID,Bényei Attila⁵^ORCID,Nagy Tibor⁶^ORCID,Kéki Sándor⁶^ORCID,Pápai Imre³^ORCID,Tuba Róbert¹⁴^ORCID

Affiliation:

1. Institute of Materials and Environmental Chemistry Research Centre for Natural Sciences Magyar tudósok körútja 2 Budapest H‐1117 Hungary

2. Department of Organic Chemistry and Technology Budapest University of Technology and Economics Szent Gellért tér 4 Budapest H‐1111 Hungary

3. Institute of Organic Chemistry Research Centre for Natural Sciences Magyar tudósok körútja 2 Budapest H‐1117 Hungary

4. Research Centre for Biochemical Environmental and Chemical Engineering Department of MOL Hydrocarbon and Coal Processing University of Pannonia Egyetem u. 10 Veszprém H‐8210 Hungary

5. Department of Physical Chemistry Faculty of Science and Technology University of Debrecen Egyetem tér 1 Debrecen H‐4032 Hungary

6. Department of Applied Chemistry Faculty of Science and Technology University of Debrecen Egyetem tér 1 Debrecen H‐4032 Hungary

Abstract

AbstractIsomerization Metathesis (ISOMET) reaction is an emerging tool for “open loop” chemical recycling of polyethylene to propylene. Novel, latent N‐Alkyl substituted Cyclic(Alkyl)(Amino)Carbene (CAAC)–ruthenium catalysts (5a‐Ru, 3b‐Ru – 6c‐Ru) are developed rendering “inverted” chemical structure while showing enhanced ISOMET activity in combination with (RuHCl)(CO)(PPh3)3 (RuH) double bond isomerization co‐catalyst. Systematic investigations reveal that the steric hindrance of the substituents on nitrogen and carbon atom adjacent to carbene moiety in the CAAC ligand have significantly improved the catalytic activity and robustness. In contrast to the NHC‐Ru and CAAC‐Ru catalyst systems known so far, these systems show higher isomerization metathesis (ISOMET) activity (TON: 7400) on the model compound 1‐octadecene at as low as 3.0 bar optimized pressure, using technical grade (3.0) ethylene. The propylene content formed in the gas phase can reach up to 20% by volume.

Funder

National Research, Development and Innovation Office

European Regional Development Fund

Nemzeti Kutatási, Fejlesztési és Innovaciós Alap

Publisher

Wiley

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/advs.202400118

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