Kinetics and Mechanisms of the Reaction of PH2O2− with O2, Photocatalyzed by [Ru(bpy)3]2+* (bpy = 2,2′-bipyridine), Forming Peroxodiphosphate Ions in an Aqueous Solution

Full understanding of a chemical change requires the identity and nature of intermediates formed between reactants and products to be identified and knowledge of the processes of bond making and breaking and of electron transfer to be established. Inorganic reaction mechanisms are thus of intrinsic interest. Moreover, they underpin our understanding of key environmental, biological, medical and industrial processes. This review of the 1998 literature does not, except for studies of particular importance or interest, cover homogeneous catalysis or redox processes involving organic substrates, organic reactions of the heavier p-block elements, or fluxional, photochemical, electrochemical, solid-state or heterogeneous processes.A new journal, Inorg. React. Mech., and a special issue of Transition Met. Chem. are devoted to inorganic mechanisms. Activation volumes in solution, models for electron transfer, the use of density functional theory and electron-transfer reactions of polyoxymetalates have been reviewed and the application of genetic-algorithm and non-linear optimization methods to the treatment of kinetic data described. Stoppedflow EXAFS has been used to study short-lived intermediates. Studies of processes on the femtosecond timescaleare noted. Redox reactionsA series of papers on electron transfer in proteinsand a review by Marcus on theory and experiment in electron-transfer reactions have appeared in a special issue of J. Electroanal. Chem. Long range electron transferDifferent sites on cytochrome bc are associated with oxidation and reduction, with the Fe-S protein component of cytochrome bc acting as an electron shuttle between †Dedicated to the memory of Professor Bob Hay, an esteemed friend and colleague.

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The synthesis of 4′-aryl substituted terpyridines by Suzuki cross-coupling reactions: substituent effects on ligand fluorescence

Goodall

Wild

Kathryn

et al. 2002

J. Chem. Soc., Perkin Trans. 2

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Several 4Ј-aryl-substituted 2,2Ј:6Ј,2Љ-terpyridines (tpy-C 6 H 4 R) have been prepared by palladium-catalysed crosscoupling of 4Ј-bromoterpyridine or 4Ј-triflate-terpyridine (triflate = trifluoromethylsulfonyloxy) with aryl boronic acids or esters, RC 6 H 4 B(ORЈ) 2 (R = H, m-NH 2 , p-CHO, -NO 2 , -CN, -NMe 2 , -NPh 2 ). The new ligand 4Ј-mesitylterpyridine (mesityl = 2,4,6-trimethylphenyl) was prepared in the same way. Similarly, 4Ј-bromophenylterpyridine (tpy--Br) has been cross-coupled with aryl halides to generate several new biaryl-substituted terpyridines (tpy--C 6 H 4 R where R = H, p-CN, NMe 2 , NPh 2 ), together with two related compounds with pendent 3-or 4-pyridyl groups (tpy--C 6 H 4 -py). For selected compounds, the alternative coupling strategy of reaction of a terpyridine-4-boronate or terpyridine-4-phenylboronate with the appropriate aryl halide has also been investigated (e.g. to prepare tpy--C 6 H 4 NO 2 ), but was generally found to be less satisfactory. All of the compounds are fluorescent in the UV region of the spectrum, the biaryl-substituted compounds being only slightly red-shifted compared to the monoaryl systems, but with the further red-shift that accompanies protonation being more significant for the former. Fluorescence lifetimes in solution are in the range 1-5 ns. The emission spectra of the aminobiphenyl-substituted compounds (tpy--C 6 H 4 NRЉ 2 , where RЉ = Me or Ph) display a large red-shift with increasing solvent polarity, suggesting the involvement of an intramolecular charge transfer state, as found previously for the two analogues omitting the phenyl ring (tpy-C 6 H 4 NRЉ 2 ). In contrast to the latter, however, protonation or binding of a Lewis acidic metal ion to the aminobiphenyl compounds serves to quench almost completely their emission.

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Kinetics and Mechanisms of the Reaction of PH2O2− with O2, Photocatalyzed by [Ru(bpy)3]2+* (bpy = 2,2′-bipyridine), Forming Peroxodiphosphate Ions in an Aqueous Solution

Cited by 6 publications

References 13 publications

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The synthesis of 4′-aryl substituted terpyridines by Suzuki cross-coupling reactions: substituent effects on ligand fluorescence

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