Syntheses and Catalytic Behavior of Dendritic Macrocyclic Schiff‐Base Nickel (II) Complexes in Ethylene Oligomerization

Author:

Xue Jingqi1,Guo Lijun1,Huo Hongliang2,Ma Lili2,Huang Jin1,Li Feng1,Li Cuiqin1ORCID

Affiliation:

1. Provincial Key Laboratory of Polyolefin New Materials, College of Chemistry & Chemical Engineering Northeast Petroleum University, Daqing Heilongjiang 163318 China

2. Daqing Petrochemical Research Center, CNPC, Daqing Heilongjiang 163318 PR China

Abstract

AbstractThe functionalized dendrimers play an important role in catalytic application. A dendritic Schiff base macrocyclic compound was designed and synthesized with the 1.0 generation dendrimer polyamidoamine (1.0G PAMAM) and terephthalaldehyde for ethylene oligomerization. The role of solvent in the synthesized process of dendritic macrocyclic Schiff base ligand was studied. Surprisingly, intermolecular or intramolecular cyclization occurred and formed bicyclic Schiff base ligand (Ligand 1) and polycyclic Schiff base ligand (Ligand 2). And their corresponding nickel complexes (Catalyst 1 and Catalyst 2) were also synthesized with NiCl2(DME) as material to be used for ethylene oligomerization. The effects of the reaction parameters and the chemical structure of the ligand on the catalytic behavior were investigated with methyl‐aluminoxane (MAO) as cocatalyst, and Catalyst 1 and Catalyst 2 displayed the high catalytic activity and the high selectivity for low‐carbon olefin in ethylene oligomerization. Catalyst 2 based on Ligand 2 had a higher catalytic activity of 9.12×104 g (mol Ni h)−1 in ethylene oligomerization because of large dendritic ring in the ligand for ethylene diffusion and mass transfer. Moreover, two synthesized nickel complexes based on dendritic macrocyclic Schiff base ligand had a higher catalytic activity compared with the corresponding dendritic salicylaldehydeimine nickel (II) catalyst.

Publisher

Wiley

Subject

General Chemistry

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