A detailed description of the thermal relaxation processes in MEH−PPV is reported. Bulk
methods such as DMTA were employed in conjunction with other techniques that probe molecular motions,
such as fluorescence spectroscopy, thermal stimulated current, and 13C NMR. From the two main
transitions observed (glass transition process at 340 K and β-relaxation between 200 and 220 K), it was
demonstrated that the first is strongly correlated with the dissociation of a fluorescent emissive interchain
complex and that the second relaxation involves movements of the lateral substituents of the polymer
backbone and, more specifically, their CH2 groups. NMR dipolar chemical shift correlation experiments
pointed an increasing gain in mobility through the side chain, the lateral carbons close to the aromatic
ring being more rigid than those located more distant from the main polymer chain. A kinetic model
involving the dissociation of interchains to re-form intrachain excitons was proposed to explain the profiles
of the photoluminescence spectra at higher temperatures.
Since many potential drugs are poorly water soluble, there is a high demand for solubilization agents. Here, we describe the synthesis of dendritic core-shell-type architectures based on hyperbranched polyglycerol for the solubilization of hydrophobic drugs. Amphiphilic macromolecules containing hydrophobic biphenyl groups in the core were synthesized in an efficient three- or four-step procedure by employing Suzuki-coupling reactions. These species were then used to solubilize the commercial drug nimodipine, a calcium antagonist used for the treatment of heart diseases and neurological deficits. Pyrene was also used as a hydrophobic model compound. It turned out that the transport properties of the dendritic polyglycerol derivatives, which are based on hydrophobic host-guest interactions, depend strongly on the degree and type of core functionalization. In the case of the multifunctional nimodipine, additional specific polymer-drug interactions could be tailored by this flexible core design, as detected by UV spectroscopy. The enhancement of solubilization increased 300-fold for nimodipine and 6000-fold for pyrene at a polymer concentration of 10 wt%. The sizes of the polymer-drug complexes were determined by both dynamic light scattering (DLS) experiments and transmission electron microscopy (TEM), and extremely well-defined aggregates with diameters of approximately 10 nm in the presence of a drug were observed. These findings together with a low critical aggregate concentration of 4x10(-6) mol L-1 indicate the controlled self-assembly of the presented amphiphilic dendritic core-shell-type architectures rather than a unimolecular transport behavior.
Most complexes of azides and transition metals involve the N 3Ϫ azide anion as a ligand other than an organic azide. Complexes of organic azides with metals are involved in biological applications and in the deposition of nitrenes on metal surfaces, producing nitride layers for semi-conductors preparation; this makes the study of these interactions an important issue. This work describes a study of the complexation of nickel and cobalt by 3-azidopropionitrile by means of electrospray ionization mass spectrometry (ESI-MS). Complexes were obtained from solutions of NiCl 2 and CoCl 2 in methanol/water. In the case of nickel, other NiX 2 salts were investigated (where X ϭ Br or NO 3 ) and other solvents were also studied (notably ethanol/water). All complexes detected were single positively charged, with various stoichiometries, some resulted from the fragmentation of the ligand, the loss of N 2 , and HCN being quite common. The most abundant cations observed were [Ni(II)AzAzX] ϩ , where X ϭ Cl, Br, NO 3 . Some of the complexes showed solvation with methanol/ethanol/water. Metal reduction was observed in complexes where a radical was lost, resulting from the homolytic cleavage of a metalOnitrogen bond. Collision induced dissociation (CID) experiments followed by tandem mass spectrometry (MS-MS) analysis were not absolutely conclusive about the coordination site. However, terminal ions observed from the fragmentation routes were explained by a proposed gas-phase mechanism. Density functional theory calculations were carried out and provided structures for some complexes, pointing to the possibility of 3-azidopropionitrile acting as a mono-or a bidentate ligand. (J Am Soc Mass Spectrom 2007, 18, 453-465)
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