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Oxidation dianionic systems

The dilithium triimidochalcogenites [Ei2 E(N Bu)3 ]2 form dimeric structures in which two pyramidal [E(N Bu)3] dianions are bridged by four lithium cations to form distorted, hexagonal prisms of the type 10.13. A fascinating feature of these cluster systems is the formation of intensely coloured [deep blue (E = S) or green (E = Se)] solutions upon contact with air. The EPR spectra of these solutions (Section 3.4), indicate that one-electron oxidation of 10.13a or 10.13b is accompanied by removal of one Ei" ion from the cluster to give neutral radicals in which the dianion [E(N Bu)3] and the radical monoanion [E(N Bu)3] are bridged by three ions. ... [Pg.195]

The combination of hard (A) and soft (5) coordination in the 1,5-P2N4S2 ring system leads to a diversity of coordination modes in complexes with transition metals (Lig. 13.1). In some cases these complexes may be prepared by the reaction of the dianion [Ph4P2N4S2] with a metal halide complex, but these reactions frequently result in redox to regenerate 13.3 (L = S, R = Ph). A more versatile approach is the oxidative addition of the neutral ligand 13.3 (L = S) to the metal centre. [Pg.263]

The electrochemical reduction and oxidation of sulfur and of polysulfide dianions at inert electrodes has been studied in aprotic solvents and in liquid ammonia. In the latter case, sulfur-nitrogen compounds are involved and these systems [90] will not be discussed here. [Pg.141]

One of the earliest series of metal complexes which showed strong, redox-dependent near-IR absorptions is the well-known set of square-planar bis-dithiolene complexes of Ni, Pd, and Pt (Scheme 4). Extensive delocalization between metal and ligand orbitals in these non-innocent systems means that assignment of oxidation states is problematic, but does result in intense electronic transitions. These complexes have two reversible redox processes connecting the neutral, monoanionic, and dianionic species. [Pg.597]

A total synthesis of the sesquiterpene ( )-illudin C 420 has been described. The tricyclic ring system of the natural product is readily quickly assembled from cyclopropane and cyclopentene precursors via a novel oxime dianion coupling reaction and a subsequent intramolecular nitrile oxide—olefin cycloaddition (463). [Pg.91]

Chiral 2-imidazoline dianions undergo one-electron oxidation in the presence of TEMPO (2,2,6,6-tetramethyl-l-piperidinyloxy) to form a radical anion that is either trapped stereoselectively by TEMPO or undergoes dimerization. Oxidation of bis-diazene oxides leads to novel (9-stabilized 4N/3e radical cations and 4N/2e dications. These were detected by ESR spectroscopy and cyclic voltammetry. B3LYR/6-31G calculations confirmed the nature of the 4N/3e and 4N/2e systems. ... [Pg.167]

One could expect diazadiboretidines to be converted into Huckel aromatic systems either by adding or by subtracting one pair of n-electrons. The addition of two electrons to diazadiboretidines of the type (RBNalkali metals. The dianions [(RBNiBu)2] are stable in solution and can be reconverted into the diazadiboretidines by oxidants. Because they contain six n-electrons, aromatic character may be attributed to the dianions (19). Cyclodimers of the type (R BNR)2 are also readily oxidized, but the adoption of an aromatic dication [(R BNR)2] as a product would be mere speculation at present. [Pg.145]

This isomerization was used in the heteroconjugate addition to the acyclic system. Therefore, the substituted olefin 72, in which the double bond is conjugated with both sulfone and silicon atoms, undergoes a diastereoselective addition of CHsLi. The resulting lithium alcoholate is quantitatively converted into the silyl ether dianion 73 and the addition of deuterium oxide afforded the functionalized product 74 in excellent yield (equation 16. [Pg.470]

Electrochemically characterized V(V) complexes which lack oxo ligands are somewhat rare. Many of those which are known are the result of preparative studies guided by CV results on V(IV) systems. For example, a series of imidovanadium(IV) complexes containing the tetradentate dianionic 5,7,12,14-tetramethyldibenzo[b, i] [1, 4, 8, 11] tetraazacyclotetradecinato moiety (TMTAA ) was reported [73], and diamagnetic vanadium(V) cations [(TMTAA)V = NR]+ (4) were prepared by oxidation of... [Pg.371]

This complex has been widely used in sensing applications since both radical ions of the complex are relatively stable to decomposition reactions. Many systems using this chromophore exist in which ECL is produced at a single electrode via coreactant oxidation or reduction schemes as discussed in the first segment of this section [Eqs. (5) through (9)]. For example, the reduction product of the peroxydisulfate dianion, S2Og, can function as an oxidant in the ECL reaction by annihilation with the electrochemically generated Ru1+ to yield the MLCT excited state of the Ru(II) complex by the mechanism [24] ... [Pg.161]

See other pages where Oxidation dianionic systems is mentioned: [Pg.24]    [Pg.294]    [Pg.174]    [Pg.1006]    [Pg.151]    [Pg.1006]    [Pg.225]    [Pg.40]    [Pg.56]    [Pg.109]    [Pg.166]    [Pg.39]    [Pg.11]    [Pg.201]    [Pg.207]    [Pg.239]    [Pg.241]    [Pg.224]    [Pg.228]    [Pg.167]    [Pg.246]    [Pg.549]    [Pg.1241]    [Pg.126]    [Pg.86]    [Pg.427]    [Pg.624]    [Pg.549]    [Pg.1241]    [Pg.23]    [Pg.114]    [Pg.1346]    [Pg.89]    [Pg.294]    [Pg.374]    [Pg.449]    [Pg.344]    [Pg.107]    [Pg.244]    [Pg.94]    [Pg.107]   
See also in sourсe #XX -- [ Pg.463 ]



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Oxidation systems

Oxidative systems

Oxide systems

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