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Ligands in coordination complexes

Immirzi, A. and Musco, A. (1977) A method to measure the size of phosphorus ligands in coordination complexes. Inorg. Chim. Acta, 25, L41. [Pg.119]

In principle, the time dependence of the magnetic interactions responsible for the relaxation processes can be exploited to investigate dynamic processes as the chemical exchange of ligands in coordination complexes. [Pg.362]

Competitive coordination of ambident heterocyclic ligands in metal complexes 97UK434. [Pg.208]

Coordination number The number of bonds from the central metal to the ligands in a complex ion, 409,412t four-coordinate metal complex, 413 six-coordinate metal complex, 413-414 Copper, 412 blister, 539... [Pg.685]

The coordination modes of the nitrate ligand in the complexes [TpBut]M(N03) (M = Cu, Ni, Co, Zn) are summarized in Fig. 46. (171, 184). Evidently, the coordination mode varies from unidentate for Zn to symmetric bidentate for Ni and Cu, with the cobalt derivative exhibiting an anisobidentate coordination mode. Moreover, the related cadmium derivative [TpBut,Me]Cd(N03) also exhibits bidentate coordination of the nitrate ligand, with Cd-0 bond lengths of2.272(6) A and 2.295(7) A (91). Such symmetric bidentate coordination contrasts with the significantly different Zn-0 interactions [1.978(3) A and 2.581(3) A] in unidentate [TpBut]Zn(N03). The coordination modes for a variety of [TpRR ]M(N03) complexes are summarized in Table VIII. [Pg.364]

The ability of cobalt(II), nickel(II), and copper(II) to exhibit a greater tendency than Zn(II) towards bidentate coordination is further illustrated by structural comparisons within a series of bridging carbonate complexes (188). For example, of the complexes [TpPr 2]M 2(/x-C03) (M = Mn, Fe, Co, Ni, Cu, Zn), only the zinc derivative does not exhibit bidentate coordination at both metal centers (151,153). Furthermore, the carbonate ligand in the complexes [TpPr 2]M 2(/x-C03) (M = Mn, Fe, Co, Ni, Cu) also exhibits varying degrees of asymmetry that closely parallel the series of nitrate complexes described earlier (Fig. 47 and Table IX). [Pg.366]

From the viewpoint of coordination chemistry, a substitution reaction can be defined as a process whereby a ligand in a complex is replaced by another ligand from outside the coordination sphere [1], Substitution reactions by metal complexes have been classified by Saito [2] according to Taube s definition [3] of inertness. Saito classified metal ions into three groups as follows ... [Pg.255]

As ligands in metal complexes, the anions derived from these acids display a broad variety of coordination patterns (Scheme 2). Usually, the ligands are described as monodentate, bidentate chelating or bridging, and polydentate. We use here a description based upon the number of connections between the... [Pg.593]

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See also in sourсe #XX -- [ Pg.295 ]



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