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Coordination compounds square planar complexes

Spot tests, 1, 552 Square antiprisms dodecahedra, cubes and, 1, 84 eight-coordinate compounds, 1,83 repulsion energy coefficients, 1, 33, 34 Square planar complexes, 1,191, 204 structure, 1, 37 Square pyramids five-coordinate compounds, 1,39 repulsion energy coefficients. 1,34 Squares... [Pg.225]

The [Ni(NCS)f,]4 ion is almost perfectly octahedral, with Ni—N distances of around 209.5 pm and N—Ni—N angles around 89.5°. The Ni—N—C and N—C—S entities are practically linear.438,439 In [Ni(NCS)2L2] where L is a R-substituted pyridine, stereochemistry and spin state depend on the type and positions of R.431 While for 2-Me- and 2-Et-pyridine square planar complexes are observed, other pyridins lead to coordination polymers with pseudo-octahedral Ni11 due to N,S-bridging thiocyanate. Ni11 thiocyanato complexes have been studied quite intensively as hosts for inclusion compounds.440"442... [Pg.283]

Cquare planar complexes are generally of the low-spin d8 type. This includes the four-coordinated complexes of Ni (II), Pd(II), Pt(II), Au(III), Rh(I) and Ir(I). The best known and most extensively studied are the compounds of Pt(II). The kinetics and mechanisms of substitution reactions of these systems have been investigated in considerable detail. Studies on complexes of the other metal ions are rather limited, but the results obtained suggest that their reaction mechanism is similar to that of the Pt(II) systems. This paper briefly surveys some of the available information, and presents the current view on the mechanism of substitution reactions of square planar complexes. [Pg.80]

Square-planar complexes of platinum(II) and palladium(II) have been known for a long time the comparatively simple unit cells of compounds such as K2PdCl4, K2PtCl4, and Pd(NH3)4Cl2H20 led to early elucidation of the structures (257) and they all contain square-planar ions. The simple halides PdCl2 and Pt,Cl2 (71) consist of chains in which the metal is bonded from the corners of a square. Nickel chloride, on the other hand, has a layer lattice in which the nickel is octahedrally coordinated, and in the halide complexes the coordination is tetrahedral, as described in Section IV,B. [Pg.157]

When the apparently penta-coordinated diarsine complexes just described are dissolved in solvents more polar than nitrobenzene, they tend to dissociate into halide ions and bivalent cations, thus becoming 2 1 electrolytes (119). The effect is most marked with the platinum compounds. It has been shown that solvation effects might be less with platinum than with palladium, and so, other things in the equilibria being equal, it can also be concluded that the bonding of further ligands by a square-planar complex is much weaker with platinum than with palladium. Square-planar nickel complexes are of course the most ready to take up further ligands. [Pg.175]

Coordination compounds using dien (27) as a ligand have been widely investigated from both octahedral and square planar complexes and there are numerous references to various aspects of Co111, Crm, Cu11 and Ni11 chemistry. [Pg.46]

In this section, we use the square-planar complex ML4 as an example to discuss the various types of electronic transitions observed in coordination compounds. [Pg.289]

In the structure of Zeise s salt, the ethylene occupies the fourth coordination site of the square planar complex with the C C axis perpendicular to the platinum-ligand plane. In this compound, the dsp2 hybridised s orbital of Pt overlaps with / -bonding... [Pg.218]

Burmeister and colleagues have described the related pseudohalogen derivatives MfterpyjXj (X = SCN or SeCN) (90-92). The platinum compound exhibits the two thiocyanate stretching frequencies expected for a square-planar complex, and is formulated [Pt(terpy)(NCS)][NCS], However, the palladium complexes are less easily formulated, exhibiting absorptions due to coordinated ECN (E = S or Se) only. These observations were interpreted in terms of a square-planar structure, with a bidentate terpy ligand in view of the known ability for palladium and platinum diimine complexes to form five-coordinate species, this formulation must also be considered. In the absence of definitive structural evidence, the formulation as five-coordinate species must be regarded as speculative. [Pg.93]

The geometry of coordination compounds cannot always be determined systematically. Ni(II), for example, can form octahedral complexes such as [Ni( H20)6J tetrahedral complexes such as [Ni(CO)4] + square planar complexes such as... [Pg.247]

The square-planar geometry (see Figs. 8.18b,c) is common for four-coordinate complexes of Au, Ir, Rh", and especially common for ions with the valence electron configurations Ni ", Pd ", and for example. The Ni " ion forms a few tetrahedral complexes, but four-coordinate Pd " and Pp" are nearly always square planar. Square-planar complexes of the type MA2B2 can have isomers, as illustrated in Figures 8.18b and c for cis- and trd ws-[Pt(NH3)2Cl2]. The cis form of this compound is a potent and widely used anticancer drug called cisplatin, but the trans form has no therapeutic properties. [Pg.336]

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See also in sourсe #XX -- [ Pg.962 , Pg.963 ]



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Complex planar

Coordination compounds complexes

Coordination compounds square-planar

Planar compounds

Square planar complexes

Square planar compounds

Square planar coordination

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