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Iron complexes chelating ligands

In Eq. (45), KFe(II)L is the stability constant for iron(II) complexation by the competing ligand, KFe(II)sid the stability constant for the complex formed between iron(II) and the siderophore, n the number of electrons transferred, Erxn the observed redox potential for the iron(III)-siderophore system coupled with iron(II) chelation, and EFJ m sld the redox potential of the iron(III)-siderophore complex. [Pg.218]

The reaction to form the palladium complex is similar to that reported for amine salts, although here, because a bidentate chelating ligand is used, no chlorine atoms are retained in the complex, and the system is easy to strip. Also, as both reactions involve initial ion pair extraction, fast kinetics are observed with 3-5 min contact time to reach equilibrium at ambient temperature. The extraction conditions can be easily adjusted in terms of acidity to suit any relative metal concentrations and, because the reagent is used in the protonated form, good selectivity over base metals, such as iron and copper,... [Pg.493]

The reaction of hexacyanometalates with metal complexes chelated by penta-dentate ligands may afford polynuclear complexes. The presence of the penta-dentate ligand precludes the polymerization that leads to extended systems. The preparation of a representative heptanuclear, mixed-valance iron complex, [Fe (CNFe° (salmeten))6]Cl2 6H20, is detailed herein. [Pg.141]

Many transition-metal complexes have been widely studied in their application as catalysts in alkene epoxidation. Nickel is unique in the respect that its simple soluble salts such as Ni(N03)2 6H20 are completely ineffective in the catalytic epoxidation of alkenes, whereas soluble manganese, iron, cobalt, or copper salts in acetonitrile catalyze the epoxidation of stilbene or substituted alkenes with iodosylbenzene as oxidant. However, the Ni(II) complexes of tetraaza macrocycles as well as other chelating ligands dramatically enhance the reactivity of epoxidation of olefins (90, 91). [Pg.123]

The tetrathiomolybdate anion [MoS4]2 acts as a chelating ligand toward iron in both diiron complexes [Fe2(SR)2(NO)4] and tetrairon complexes [Fe4S3(NO)7] and [Fe4S4(NO)4] to yield two paramagnetic iron-nitrosyls which have been assigned (55) the constitutions 15 and 16 ... [Pg.351]

See other pages where Iron complexes chelating ligands is mentioned: [Pg.439]    [Pg.30]    [Pg.1089]    [Pg.148]    [Pg.243]    [Pg.244]    [Pg.99]    [Pg.50]    [Pg.227]    [Pg.437]    [Pg.977]    [Pg.256]    [Pg.612]    [Pg.182]    [Pg.177]    [Pg.290]    [Pg.120]    [Pg.448]    [Pg.244]    [Pg.303]    [Pg.110]    [Pg.75]    [Pg.194]    [Pg.196]    [Pg.119]    [Pg.226]    [Pg.226]    [Pg.412]    [Pg.496]    [Pg.505]    [Pg.514]    [Pg.516]    [Pg.754]    [Pg.759]    [Pg.227]    [Pg.21]    [Pg.1118]    [Pg.436]    [Pg.443]    [Pg.1083]    [Pg.1087]    [Pg.1087]    [Pg.464]    [Pg.680]    [Pg.439]   
See also in sourсe #XX -- [ Pg.2 , Pg.204 ]



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Chelat complex

Chelatable iron

Chelate complexes

Chelate ligands

Chelated ligand

Chelating complexes

Complexation/chelation

Iron chelation

Iron chelator

Iron complexes ligand

Iron ligand

Iron(III) complexes with chelating ligands

Iron, chelates

Iron-chelator complex

Ligands chelation

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