UV/vis absorption titrations have been used to investigate the formation of H-bonded complexes between anionic H-bond acceptors (HBAs) and neutral H-bond donors (HBDs) in organic solvents. Complexes formed by three different HBDs with 15 different anions were studied in chloroform and in acetonitrile. The data were used to determine self-consistent HBA parameters (β) for chloride, bromide, iodide, phosphate diester, acetate, benzoate, perrhenate, nitrate, triflimide, perchlorate, hexafluorophosphate, hydrogen sulfate, methyl sulfonate, triflate, and perfluorobutyl sulfonate. The results demonstrate the transferability of H-bond parameters for anions between different solvents and different HBD partners, allowing reliable prediction of anion recognition properties in other scenarios. Carboxylates are the strongest HBAs studied, with β parameters (≈ 15) that are significantly higher than those of neutral organic HBAs, and the non-coordinating anion hexafluorophosphate is the weakest acceptor, with a β parameter comparable to that of pyridine. The effects of ion pairing with the counter-cation were found to be negligible, provided small polar cations were avoided in the less polar solvent (chloroform). There is no correlation between the H-bonding properties of the anions and the pK values of the conjugate acids.
This report describes the synthesis, spectroscopy, and photochemistry of a new fluorescein-derivatized iron sulfur nitrosyl compound, the Roussin's red salt ester bis-((mu-S,mu-S')-fluorescein-2-thioethyl-ester)-tetranitrosyldiiron (Fluor-RSE). Under continuous photolysis Fluor-RSE decomposes with moderate quantum yields (0.0036 +/- 0.0005 at lambda(irr) = 436 nm) with the corresponding release of most of the NO carried by the Fe2S2NO4 cluster. Large changes in the optical absorptivity occur upon photolysis of the Fluor-RSE, and these changes have been attributed to the different protic forms available to the fluorescein chromophore as it is separated from the cluster. Steady-state luminescence experiments have shown that the fluorescence of Fluor-RSE is about 85% quenched relative to the model compound ethyl fluorescein (Fluor-Et). Thus, it is clear that excitation of the fluorescein chromophore antennae is followed by energy transfer to the Fe/S/NO cluster at a rate at least comparable to fluorescence. However, the effect of the iron-sulfur core on the fluorescent lifetimes from fluorescein chromophore is much smaller. A single-exponential decay (tau = 3.3 ns) was seen for Fluor-RSE that is only modestly shorter than that for Fluor-Et (tau = 4.5 ns), and this is the effect of the smaller radiative rate constant (k(r)) for the former. These systems further demonstrate that attachment of a pendant dye chromophore as an antenna significantly improves the effective rate for photochemical NO generation from the Roussin's red salt esters at longer excitation wavelengths.
Seven different porphyrin compounds have been investigated as colorimetric gas sensors for a wide range of volatile organic compounds. The porphyrins examined were the free base and Mg, Sn, Zn, Au, Co, and Mn derivatives of 5,10,15,20-tetrakis[3,4-bis(2-ethylhexyloxy)phenyl]-21H,23H-porphine. Chloroform solutions of these materials were prepared and changes in their absorption spectra induced by exposure to various organic compounds measured. The porphyrins that showed strong responses in solution were selected, and Langmuir-Blodgett films were prepared and exposed to the corresponding analytes. This was done to determine whether they are useful materials for solid state thin film colorimetric vapor sensors. Porphyrins that readily coordinate extra ligands are shown to be suitable materials for colorimetric volatile organic compound detectors. However, porphyrins that already have bound axial ligands when synthesized only show a sensor response to those analytes that can substitute these axial ligands. The Co porphyrin displays a considerably larger response than the other porphyrins investigated which is attributed to a switch between Co(II) and Co(III) resulting in a large spectral change.
The visible absorption spectra of various substituted porphyrin compounds both in chloroform solution and as Langmuir-Blodgett (LB) solid-state films have been investigated. The porphyrin compounds examined were the Zn, Sn, Mg, and free base derivatives of 5,10,15,20-tetrakis[3,4-bis(2-ethylhexyloxy)phenyl]-21H,23H-porphine (EHO). Changes in the absorption spectra of these materials induced by their exposure to various organic compounds are reported with a view toward determining whether this is a useful approach toward an optical gas sensor.
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