| Literature DB >> 27416899 |
Clifton L Wagner1, Lizhi Tao1, Emily J Thompson1, Troy A Stich1, Jingdong Guo2, James C Fettinger1, Louise A Berben1, R David Britt1, Shigeru Nagase2, Philip P Power3.
Abstract
The synthesis of the first linear coordinated Cu(II) complex Cu{N(SiMe3 )Dipp}2 (1 Dipp=C6 H5 -2,6Pr(i) 2 ) and its Cu(I) counterpart [Cu{N(SiMe3 )Dipp}2 ](-) (2) is described. The formation of 1 proceeds through a dispersion force-driven disproportionation, and is the reaction product of a Cu(I) halide and LiN(SiMe3 )Dipp in a non-donor solvent. The synthesis of 2 is accomplished by preventing the disproportionation into 1 by using the complexing agent 15-crown-5. EPR spectroscopy of 1 provides the first detailed study of a two-coordinate transition-metal complex indicating strong covalency in the Cu-N bonds.Entities:
Keywords: EPR spectroscopy; copper; dispersion effects; disproportionation; silylamide
Year: 2016 PMID: 27416899 DOI: 10.1002/anie.201605061
Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN: 1433-7851 Impact factor: 15.336