A cellular ligand-field model forl-lspectral intensities

Abstract

The intensity distributions in the ‘d-d’ spectra of three planar CuCl2- 4 chromophores are reproduced quantitatively within the theoretical model described in the preceding paper. Intensity for these species, namely bis(1-methyl-4-oxo-3,3-diphenylhexyldimethylammonium)tetrachlorocopper(II), bis(2-iminol-1-methy-4-imidazolidinium)tetrachlorocopper(II) and bis(N-methylphenylethylammonium)-tetrachlorocopper(II), is deemed to arise dynamically via the bending vibrations. Fair reproduction of experimental absorbances is achieved using the b 2u mode alone, this being known to be the softest vibration in these systems. The roles of spin-orbit coupling and small departures from D 4h symmetry are discussed. Nearly perfect reproduction of experiment is obtained with addition of small contributions from the eu bend. The intensity distribution in the ‘d-d’ spectrum of the pseudo-tetrahedral chromophore, bis(N-benzylpiper-azinium)tetrachlorocopper(II), is reproduced quantitatively within the ‘static’ model described in part I of this series. Comparisons between the parameter values obtained from the ‘static’ analysis with those from the ‘dynamic’ analysis for the planar chromophores suggest that dynamic modelling with both b 2u and eu modes is the more physically persuasive. The efficacy of the model in part IV is critically reviewed in this first application.