Add to ORKGIron(II) 2,6-diiminopyridine (PDI) complexes, in conjunction with methyl alumoxane (MAO) cocatalyst, have emerged as highly active catalysts for the polymerisation and oligomerisation of ethene. Thus far, this combination constitutes the only iron-based system that shows high activities. Although the exact nature of the propagating species is still under discussion, a cationic, electron-deficient iron alkyl complex has been proposed as the most likely candidate. Literature reports on electron-deficient iron alkyls are relatively scarce compared to the well-established chemistry of their electronically saturated, 18-valence electron counterparts. Consequently, preparation of well-defined electron-deficient iron (alkyl) cations by alkyl abstr...
Reaction of diimine ligands (Ph2CN)(2)CnH2n (n = 2, a; n = 3, b) with FeCl2 or FeBr2 results in form...
Reaction of diimine ligands (Ph2CN)(2)CnH2n (n = 2, a; n = 3, b) with FeCl2 or FeBr2 results in form...
The synthesis and characterisation of a series of novel borane, boryl and borylene complexes of elec...
Iron(II) 2,6-diiminopyridine (PDI) complexes, in conjunction with methyl alumoxane (MAO) cocatalyst,...
Synthesis and characterisation of ether adducts of bis(amidinate) Fe-II complexes are described [ami...
The three-coordinate, 12-valence electron complexes [((BDK)-B-Me)FeR] ((BDK)-B-Me = [HC(C(Me)NAr)(2)...
The sterically hindered benzamidinate ligand [PhC(NAr)(2)](-) (Ar = 2,6-iPr(2)C(6)H(3)) has been emp...
The development of iron catalysts is attractive owing to the ready availability, relatively low cost...
The synthesis of rare anionic heteroleptic and homoleptic alpha-diimine iron complexes is described....
The discovery by Brookhart and Gibson that late transition metals supported by diimine ligands could...
A range of iron(II) complexes incorporating the silylated pentalene ligands (Pn†H = 1,4-{SiiPr3}2C8H...
The chemistry of diiron complexes has seen a recent renaissance, due to the prominent role played by...
Reaction of diimine ligands (Ph2CN)(2)CnH2n (n = 2, a; n = 3, b) with FeCl2 or FeBr2 results in form...
Reaction of diimine ligands (Ph2CN)(2)CnH2n (n = 2, a; n = 3, b) with FeCl2 or FeBr2 results in form...
The synthesis and characterisation of a series of novel borane, boryl and borylene complexes of elec...
Iron(II) 2,6-diiminopyridine (PDI) complexes, in conjunction with methyl alumoxane (MAO) cocatalyst,...
Synthesis and characterisation of ether adducts of bis(amidinate) Fe-II complexes are described [ami...
The three-coordinate, 12-valence electron complexes [((BDK)-B-Me)FeR] ((BDK)-B-Me = [HC(C(Me)NAr)(2)...
The sterically hindered benzamidinate ligand [PhC(NAr)(2)](-) (Ar = 2,6-iPr(2)C(6)H(3)) has been emp...
The development of iron catalysts is attractive owing to the ready availability, relatively low cost...
The synthesis of rare anionic heteroleptic and homoleptic alpha-diimine iron complexes is described....
The discovery by Brookhart and Gibson that late transition metals supported by diimine ligands could...
A range of iron(II) complexes incorporating the silylated pentalene ligands (Pn†H = 1,4-{SiiPr3}2C8H...
The chemistry of diiron complexes has seen a recent renaissance, due to the prominent role played by...
Reaction of diimine ligands (Ph2CN)(2)CnH2n (n = 2, a; n = 3, b) with FeCl2 or FeBr2 results in form...
Reaction of diimine ligands (Ph2CN)(2)CnH2n (n = 2, a; n = 3, b) with FeCl2 or FeBr2 results in form...
The synthesis and characterisation of a series of novel borane, boryl and borylene complexes of elec...