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The Solution Structure of Rhombic Lanthanide Complexes Analyzed with a Model-Free and Crystal-Field Independent Paramagnetic NMR Method: Application to Nonaxial Trimetallic Complexes [LnxLu3-x(TACI-3H)2(H2O)6]3+ (x = 1−3)
journal contribution
posted on 2004-02-23, 00:00 authored by Nadjet Ouali, Jean-Pierre Rivera, David Chapon, Pascale Delangle, Claude PiguetThe model-free approach has been extended with the derivation of a novel three-nuclei crystal-field independent
method for investigating isostructurality in nonaxial (i.e., rhombic) complexes along the lanthanide series. Application
of this technique to the heterotrimetallic sandwich complexes [LnLu2(TACI-3H)2(H2O)6]3+, which possess a single
C2v-symmetrical paramagnetic center, unambiguously evidences isostructurality for Ln = Pr−Yb, while the variation
of the second-rank crystal-field parameters
and
along the series prevents reliable structural analyses with
the classical one-nucleus equation. Extension toward polymetallic magnetically noncoupled rhombic lanthanide
complexes in [Ln2Lu(TACI-3H)2(H2O)6]3+ (two paramagnetic centers with Cs microsymmetry) and [Ln3(TACI-3H)2(H2O)6]3+ (three paramagnetic centers with C2v microsymmetry) requires only minor modifications of the original
three-nuclei equation. Isostructurality characterizes [Ln2Lu(TACI-3H)2(H2O)6]3+ (Ln = Pr−Yb), while [Ln3(TACI-3H)2(H2O)6]3+ exhibit a structural change between Eu and Tb which results from the concomitant contraction of the
three metallic centers. Particular attention has been focused on (i) the stepwise increase of contact (i.e., through-bond) and pseudocontact (i.e., through-space) contributions when the number of paramagnetic centers increases,
(ii) the assignment of 13C resonances in the strongly paramagnetic complexes [Ln3(TACI-3H)2(H2O)6]3+ (Ln = Tb−Yb) for which reliable T1 measurements and {1H−13C} correlation spectra are not accessible, and (iii) the combination
of crystal-field dependent and independent methods for analyzing the paramagnetic NMR spectra of axial and
nonaxial lanthanide complexes.