Copper(I) complexes with conjugated dienes
Journal article, 2000

Three copper(I) complexes containing conjugated dienes and one containing the acetylenic analogue of isoprene, 2-methyl-1-butene-3-yne (isopropenylacetylene), have been prepared and characterised by means of crystal-structure determination. Direct reaction between isoprene (2-methylbutadiene) and copper(I) trifluoromethylsulfonate, using triphenylphosphine as a stabilising ligand, results in [Cu-2(PPh3)(2)(mu-(H2C=CHC(CH3)=CH2))(O3SCF3)(2)] (1), whereas reaction between copper(I) chloride and isopropenylacetylene, dimethylbutadiene, and trans-1,3-pentadiene yields the labile compounds [Cu2Cl2 (mu-(H2C=CHC(CH3)=CH))] (2), [Cu2Cl2 (mu-(H2C=C(CH3)C(CH3)-CH2))] (3) and [Cu2Cl2(mu-(trans-H2C=CHCH=CH(CH3))] (4), respectively. All four compounds are polymeric. Thus, the organic ligands bridge two copper(I) centres via the alkene or alkyne bonds, the conjugated dienes all assuming the s-trans conformation. Further bridging is effected by the trifluoromethylsulfonate ligands in 1 and by the chloride ligands in 2, 3 and 4. In 1, copper(I) has distorted tetrahedral geometry, whereas in 2, 3 and 4, copper(I) exhibits tetrahedral or trigonal pyramidal geometry with the C=C/C=C linkage in the trigonal plane and an apical Cu-Cl bond. The nearly planar carbon skeleton of isoprene in 1 bonds to two copper(I) atoms from opposite faces of the diene. The Cu-C distances range from 2.085(6) to 2.220(6) Angstrom [C(CH3)] and the C=C bond lengths are 1.360(8) and 1.353(8) Angstrom. Trifluoromethylsulfonate ligands bridge adjacent [Cu-2(PPh3)(2)(mu-(H2C=CHC(CH3)-CH2))(O3SCF3)(2)] units leading to the formation of chains, containing internal chair-shaped Cu2S2O4 rings alternating with isoprene ligands, with peripheral triphenylphosphine ligands. The carbon skeleton of the isopropenylacetylene ligand in 2 and those of dimethylbutadiene in 3 and of trans-1,3-pentadiene in 4 are also approximately planar, but, unlike the situation in 1, in compounds 2-4, two copper(I) atoms are coordinated by C=C/C=C from the same face of the ligand. In 2, Cu-C distances range from 2.005(11) to 2.158(9) Angstrom [C(CH3)] and the C=C and C=C bond lengths are 1.373(13) and 1.200(14) Angstrom, respectively. In 3, Cu-C distances range from 2.06(1) to 2.17(1) Angstrom [C(CH3)] and both C=C bonds are 1.35(1) Angstrom. Dimeric [Cu2Cl2(mu-(H2C=CHC(CH3)=CH))](2) and [Cu2Cl2(mu-(H2C=C(CH3)C(CH3)=(CH2))] units are linked by long Cu-Cl bonds leading to the formation of chains with peripheral isopropenylacetylene (2) and dimethylbutadiene (3) ligands. The crystal structure of 4 could be determined only with low precision, but can be described in terms of copper(I) chloride layers with peripheral trans-1,3-pentadiene ligands. Shifts in the infrared absorptions on coordination of the conjugated dienes (including butadiene and cis-1,3-pentadiene) to copper(I) are discussed in the light of the crystal structures of 2-4.



crystal structure





infrared spectroscopy





Mikael Håkansson

Katarina Brantin

Susan Elisabeth Jagner

Department of Inorganic Chemistry

Journal of Organometallic Chemistry

0022-328X (ISSN)

Vol. 602 1-2 5-14

Subject Categories

Chemical Sciences



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