Valentine Andrew J, Geer Ana M, Taylor Laurence J, Teale Andrew M, Wood Katherine E, Williams Huw E L, Lewis William, Argent Stephen P, McMaster Jonathan, Kays Deborah L
School of Chemistry, University of Nottingham, University Park, Nottingham, NG7 2RD, UK.
Dalton Trans. 2021 Jan 14;50(2):722-728. doi: 10.1039/d0dt03972a. Epub 2020 Dec 21.
The effect of para-substitution upon the structural and electronic properties of a series of m-terphenyl lithium complexes [R-Ar-Li] (R = t-Bu 1, SiMe2, H 3, Cl 4, CF5; where R-Ar = 2,6-{2,6-Xyl}-4-R-CH and 2,6-Xyl = 2,6-MeCH) has been investigated. X-ray crystallography reveals the complexes to be structurally similar, with little variation in C-M-C bond lengths and angles across the series. However, in-depth NMR spectroscopic studies reveal notable electronic differences, showing a linear correlation between the Li{H} NMR chemical shifts of the para-substituted complexes and their Hammett constants. The flanking methyl protons exhibit a similar electronic shift in the H NMR spectra, which has been rationalised by the presence of through-space LiH interactions, as evidenced by two-dimensional Li-H heteronuclear Overhauser spectroscopy (HOESY). In both cases, electron-withdrawing substituents are found to cause an upfield peak shift. A computational analysis is employed to account for these trends.
