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  • Title: Quantitative analysis of 2H NMR T1Q, T1Z and T2 relaxation times in the SmA phase of a liquid crystal dendrimer.
    Author: Domenici V.
    Journal: Phys Chem Chem Phys; 2009 Oct 14; 11(38):8496-506. PubMed ID: 19774280.
    Abstract:
    In this work the 2H NMR spin-lattice relaxation times, T1Z and T1Q, and the spin-spin relaxation times measured by means of the quadrupolar echo sequence, T2, have been analyzed in order to study the dynamic processes of a liquid crystalline dendrimer labelled on the aromatic core of the lateral mesogenic units in the SmA phase. Several theoretical models describing both internal and overall molecular diffusion motions have been used to reproduce the temperature dependence of the spectral densities J(0)(0), J1(omega0) and J2(2omega0) experimentally determined at the Larmor frequency omega0 of 61.3 MHz. This analysis identifies in the internal rotation of the deuterated phenyl ring around its para axis the main contribution to the longitudinal relaxation. Moreover, the best fitting of the minimum in the trend of both T1Z and T1Q was obtained by introducing a distribution of activation energies for such internal motion, thus confirming previous hypothesis of dynamic heterogeneity. A much slower motion, affecting the sole transverse relaxation and ascribable to the reorientation of the whole macromolecular dendrimers, was modelled through the so called "slowly relaxing local structure" approach.
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