Synthesis of Branched α‐Olefins via Trimerization and Tetramerization of Ethylene

Synthesis of Branched α‐Olefins via Trimerization and Tetramerization of Ethylene

Abstract α‐Olefins are very important bulk and fine chemicals and their synthesis from ethylene, an abundantly available and inexpensive feedstock, is highly attractive. Unfortunately, the direct or on‐purpose synthesis of olefins from ethylene is limited to three examples, 1‐butene, 1‐hexene, and 1...

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Bibliographic Details
Main Authors: Fabian Lukas, Paula A. Simon, Thomas Dietel, Winfried P. Kretschmer, Rhett Kempe
Format: Article
Language:English
Published: Wiley 2024-10-01
Series:Advanced Science
Subjects:
branched α‐olefins
ethylene
tetramerization
titanium
trimerization
Online Access:https://doi.org/10.1002/advs.202405653
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Summary:Abstract α‐Olefins are very important bulk and fine chemicals and their synthesis from ethylene, an abundantly available and inexpensive feedstock, is highly attractive. Unfortunately, the direct or on‐purpose synthesis of olefins from ethylene is limited to three examples, 1‐butene, 1‐hexene, and 1‐octene, all having a linear structure. Herein, the direct synthesis of 3‐methylenepentane and 4‐ethylhex‐1‐ene, branched trimerization, and tetramerization products of ethylene, respectively, is reported. Different molecular titanium catalysts, all highly active, with a selectivity toward the formation of the branched ethylene trimer or tetramer, the employment of different activators, and different reaction conditions are the key to selective product formation. The long‐time stability of selected catalysts employed permits upscaling as demonstrated for the synthesis of 4‐ethylhex‐1‐ene (52 g isolated, TON(ethylene) 10.7 · 106).
ISSN:2198-3844

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