Dan A. Lerner scite author profile

The preparations and properties of ruthenium(II) complexes containing the bidentate ligand l-(2-pyridyl)-3,5-dimethylpyrazole, L, are described. The tris complex RuL32+ is shown to readily undergo photosubstitution in acetonitrile solution to produce RuL2(CH3CN)22+, which in the presence of other bidentate ligands undergoes thermal substitution of the coordinated acetonitrile. , 13C, and "Ru NMR spectra are reported for all the complexes. Proton and carbon-13 NMR reveal the presence of geometrical isomerism, where it exists; proton and ruthenium-99 NMR allow the evaluation of the percentage of these isomers. Ruthenium-99 NMR proves to be an excellent probe of electron density at the metal and is possibly useful to evaluate the amount of x-back-bonding depending on the ligands. Electronic spectral data and oxidation potential measurements are given for comparison with those of the well-known Ru(bpy)32+ complex but do not lead to consistent results.

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Azoic Dye Hosted in Layered Double Hydroxide: Physicochemical Characterization of the Intercalated Materials

Mandal

Tichit

Lerner

et al. 2009

Langmuir

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Intercalation compounds were obtained by introduction of guest methyl orange (MO) into the interlayer space of host Mg/Al and Ni/Al layered double hydroxides (LDHs). Three synthesis methods of organic anion-LDH intercalation compounds, i.e., coprecipitation, reconstruction of the MII(Al)O mixed oxides, and anion exchange of LDH, were compared. The former method gives rise to a highly organized MO-intercalated Mg/Al LDH with an interlayer spacing of 2.43 nm and up to seven (00l) reflection orders. Reconstruction of the mixed oxide by intercalation with MO in the restored LDH was only achieved with Mg(Al)O. In this case, a competitive adsorption of MO on the external surface of the crystals was also seen. On the other hand, intercalation compounds exhibiting interlayer spacing of 2.43 nm were obtained with both Mg- and Ni-containing LDH using the anionic exchange method. The equilibrium and kinetic adsorption properties of the compounds were analyzed by UV-visible spectroscopy in anionic exchange experiments. According to the pseudo-second-order adsorption model, the amounts of adsorbed MO reach 3.82 and 2.83 mequiv/g for Mg- and Ni-containing LDHs, respectively, which are close to their respective anionic exchange capacity. The adsorption rates are on the same order of magnitude for the two LDHs (0.10-0.44 g mmol(-1) min(-1)), the equilibrium being reached in less than 60 min. The decomposition of MO by combustion of the organic moieties under an oxidizing atmosphere is delayed in Mg-containing MO-LDH hybrids when compared to the free MO molecule, showing that the thermal stability of MO species is enhanced after intercalation. In Ni-containing LDH, the main decomposition step of MO occurs 300 degrees C below that of Mg-containing LDH. This was rationalized in terms of a catalysis by the Ni-containing oxides formed during the thermal treatment. So these materials exhibit several advantages useful for the development of eco-friendly processes for the removal of dyes from effluents of textile, plastic, and paper industries.

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Dan A. Lerner

Inclusion of ibuprofen in mesoporous templated silica: drug loading and release property

New ruthenium(II) complexes with pyridylpyrazole ligands. Photosubstitution and proton, carbon-13, and ruthenium-99 NMR structural studies

Azoic Dye Hosted in Layered Double Hydroxide: Physicochemical Characterization of the Intercalated Materials

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