Chromium complexes bearing pyrrolide-imine N,N-chelate ligands: synthesis, structures and ethylene polymerisation behaviour

Chromium(II) and chromium(III) complexes bearing two bulky monoanionic N,N-chelating pyrrolide-imine ligands, {ArNCH(C4H3N-2)}2Cr (1) and {ArNCH(C4H3N-2)}2Cr(µ-Cl)2Li(THF)2 (2), have been prepared in high yield by treatment of the sodium and lithium salts of ArNCH(C4H3NH-2) (Ar = 2,6-i-Pr2C6H3) with CrCl2(THF) and CrCl3(THF)3, respectively. The molecular structure of 1 reveals a square planar geometry about chromium with the pyrrolide-N units disposed mutually trans. Conversely, an octahedral geometry is exhibited by the chromium centre in 2 with mutually cis-oriented pyrrolide-N units and cis-chloride ligands which, in turn, link to a Li(THF)2 unit. Complex 2 can be alkylated with AlR3 to give the five-coordinate mono-alkyl species {ArNCH(C4H3N-2)}2CrR (3a R = Me; 3b R = Et), in which two pyrrolide-imine ligands occupy the square base of the square pyramidal chromium centre. Complexes 1–3 behave as ethylene polymerisation catalysts upon treatment with an excess of a range of aluminium activators including MAO, Et2AlCl and Me2AlCl, converting ethylene to high molecular weight polyethylene. In all cases the dialkylaluminium chlorides are superior co-catalysts to MAO, affording acitivities up to 120 g mmol−1 h−1 bar−1. The coordinatively unsaturated bis(pyrrolide-imine) chromium alkyl complexes 3a and 3b are inactive for the polymerisation of ethylene in the absence of activator.

[1]  D. Stephan,et al.  Structural Isomers of the Chromium Bis(phosphoranimine)methanide Complex [(HC(PPh2NSiMe3)2)Cr(μ-Cl)]2 , 2002 .

[2]  I. Guzei,et al.  The (Ph)2nacnac ligand in organochromium chemistry , 2002 .

[3]  H. Yasuda,et al.  Chromium complexes coordinated with chelating disiloxane-1,3-diamido ligands as catalyst precursors for ethylene polymerization , 2002 .

[4]  T. Nakano,et al.  New Titanium Complexes Having Two Pyrrolide−Imine Chelate Ligands: Syntheses, Structures, and Ethylene Polymerization Behavior , 2001 .

[5]  T. Nakano,et al.  A Family of Zirconium Complexes Having Two Phenoxy−Imine Chelate Ligands for Olefin Polymerization , 2001 .

[6]  H. Yasuda,et al.  Ethylene polymerizations with Alkyl-, disilylamino-and cyclopentadienylchromium/MMAO initiators , 2001 .

[7]  K. Cavell,et al.  Novel Chromium (III) Complexes Containing Imidazole-Based Chelate Ligands with Varying Donor Sets: Synthesis and Reactivity , 2001 .

[8]  S. Mecking Olefin Polymerization by Late Transition Metal Complexes-A Root of Ziegler Catalysts Gains New Ground. , 2001, Angewandte Chemie.

[9]  M. Brookhart,et al.  Late-metal catalysts for ethylene homo- and copolymerization. , 2000, Chemical reviews.

[10]  E. Oñate,et al.  Synthesis of branched polyethylene using (α-diimine)nickel(II) catalysts : influence of temperature, ethylene pressure, and ligand structure on polymer properties , 2000 .

[11]  V. R. Jensen,et al.  Activity of Homogeneous Chromium(III)-Based Alkene Polymerization Catalysts: Lack of Importance of the Barrier to Ethylene Insertion , 2000 .

[12]  Friedrich,et al.  Neutral, single-component nickel (II) polyolefin catalysts that tolerate heteroatoms , 2000, Science.

[13]  G. Britovsek,et al.  The Search for New-Generation Olefin Polymerization Catalysts: Life beyond Metallocenes. , 1999, Angewandte Chemie.

[14]  Michael J. Fevola,et al.  [(Ph)2nacnac]MCl2(THF)2 (M = Ti, V, Cr): A New Class of Homogeneous Olefin Polymerization Catalysts Featuring β-Diiminate Ligands , 1998 .

[15]  R. Grubbs,et al.  Neutral Nickel(II)-Based Catalysts for Ethylene Polymerization , 1998 .

[16]  Maurice Brookhart,et al.  Highly Active Iron and Cobalt Catalysts for the Polymerization of Ethylene , 1998 .

[17]  K. Theopold Understanding Chromium-Based Olefin Polymerization Catalysts , 1997 .

[18]  M. D. Fryzuk,et al.  Synthesis and Structure of a Five-Coordinate Organochromium(III) Thiolate Complex from a Chromium(II) Alkyl Precursor , 1997 .

[19]  P. W. Jolly,et al.  The Role of Metallacycles in the Chromium-Catalyzed Trimerization of Ethylene , 1997 .

[20]  G. Yap,et al.  Constrained Geometry Chromium Catalysts for Olefin Polymerization , 1996 .

[21]  J. Jubb,et al.  One- vs Two-Electron Reduction of N2O Promoted by a Divalent Chromium Macrocyclic Complex , 1996 .

[22]  Maurice Brookhart,et al.  New Pd(II)- and Ni(II)-Based Catalysts for Polymerization of Ethylene and .alpha.-Olefins , 1995 .

[23]  V. C. Gibson,et al.  New homogeneous ethylene polymerization catalysts derived from transition metal imido precursors , 1994 .

[24]  S. Gambarotta,et al.  Ligand steric bulk: A neglected factor in the formation of CrCr supershort contacts , 1993 .

[25]  J. Zukerman-Schpector,et al.  Electrochemical synthesis of cobalt(II) and cobalt(III) complexes of Schiff bases: The crystal structure of tris{2-[(2-methylphenyl)iminomethyl] pyrrolato}cobalt(III) , 1992 .

[26]  F. Cotton,et al.  A five-coordinate, high-spin chromium(lII) complex: Cr(tmtaa)Cl , 1990 .

[27]  J. Shamir New synthesis of chromium trichloride tetrahydrofuranate , 1989 .

[28]  H. Krauss New results with Phillips systems: surface compounds of transition metals, part XXXII , 1988 .

[29]  G. Ghiotti,et al.  IR investigation of polymerization centres of the Phillips Catalyst. , 1988 .

[30]  J. Krause,et al.  Strukturuntersuchungen an organochromverbindungen III. Röntgenstrukturanalytische und spektroskopische untersuchungen an Na2Cr(C6H5)5·3C4H10O·C4H8O , 1972 .