The insertion, elimination and isomerisation of octenes with di-n-octylaluminium hydride [HAl(Oct)2], tri-n-octylaluminium [Al(Oct)3] and sec-octylaluminium species have been studied as individual steps in a putative aluminium based contrathermodynamic olefin isomerisation process. While elimination of 1-octene from [Al(Oct)3] is energetically unfavourable, the process is driven by high temperature vacuum distillation, leading to very high selectivity to 1-octene (>97%). At high conversions the [HAl(Oct)2] so obtained exists predominately as hydride-bridged cyclic oligomers, whereas at low conversion the mixed alkyl/hydride-bridged dimer [(Oct)2Al(μ-H)(μ-Oct)Al(Oct)2] is the major species. Di-n-octylaluminium hydride recovered after olefin elimination may be recycled and is active toward re-insertion of octenes. Internal octenes (cis- and trans-2-, 3- and 4-octene) only partially insert however, and even after prolonged heating there is no significant secondary to primary alkyl isomerisation evident.
History
Publication title
Dalton Transactions
Volume
44
Issue
34
Pagination
15286-15296
ISSN
1477-9226
Department/School
School of Natural Sciences
Publisher
Royal Soc Chemistry
Place of publication
Thomas Graham House, Science Park, Milton Rd, Cambridge, England, Cambs, Cb4 0Wf
Rights statement
Copyright 2015 The Royal Society of Chemistry
Repository Status
Restricted
Socio-economic Objectives
Organic industrial chemicals (excl. resins, rubber and plastics)