posted on 2017-04-13, 12:18authored byAlejo
M. Lifschitz, Nathanael A. Hirscher, Heui Beom Lee, Joshua A. Buss, Theodor Agapie
Diphosphinoamines
(PNP) are commonly used to support Cr-catalyzed
ethylene trimerization and tetramerization. Although isomerization
of PNP to a PPN (iminobisphosphine) species has been established,
such reactivity has not been studied in detail in the context of Cr-based
selective ethylene oligomerization catalysis. Herein, we show that
precursors that are stable as PNP frameworks can isomerize to PPN
species in the presence of chlorinated aluminum activators relevant
to ethylene oligomerization catalysis. Isomerization changes the pattern
of reactivity of the ligands, making them more susceptible to nucleophilic
attack by alkyl groups, resulting in a variety of degradation products.
The isomerization-mediated degradation of PNP ligands leads to the
formation of unwanted polymerization catalysts in ethylene tetramerization
systems, thus providing insight into the formation of Cr species that
affect the overall selectivity and activity values. For example, independently
prepared [R2PNR] leads to potent Cr
polymerization catalysts. The susceptibility for isomerization is
dependent on the nature of the N-substituent of the PNP precursor.
Electron donating N-substituent i-Pr, which disfavors
the PPN isomer compared to p-tolyl, and minimization
of water contamination correlate with higher oligomerization activity
and lower polymer byproducts. More broadly, the present study demonstrates
the significant impact that Al-activators can have on the structure
and behavior of the supporting ligand leading to detrimental reactivity.