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Coupling constant ligand

Experimental confirmation of the metal-nitrogen coordination of thiazole complexes was recently given by Pannell et al. (472), who studied the Cr(0), Mo(0), and W(0) pentacarbonyl complexes of thiazole (Th)M(CO)5. The infrared spectra are quite similar to those of the pyridine analogs the H-NMR resonance associated with 2- and 4-protons are sharper and possess fine structure, in contrast to the broad, featureless resonances of free thiazole ligands. This is expected since removal of electron density from nitrogen upon coordination reduces the N quad-rupole coupling constant that is responsible for the line broadening of the a protons. [Pg.129]

Warren KD (1984) Calculations of the Jahn-Teller Coupling Constants for d Systems in Octahedral Symmetry via the Angular Overlap Model. 57 119-145 Warren KD (1977) Ligand Field Theory off-Orbital Sandwich Complexes. 33 97-137 Warren KD (1976) Ligand Field Theory of Metal Sandwich Complexes. 27 45-159 Watson RE, Perlman ML (1975) X-Ray Photoelectron Spectroscopy. Application to Metals and Alloys. 24 83-132... [Pg.257]

Table 3. Calculated Slater—Condon Integrals, Spin—Orbit Coupling Constants, and Ligand Field Parameters (in cm-1) for CsMgBr, Eu2+ Considering the Ground (GC) and Excited (EC) Configurations Local Structures of the Eu2+ Impurity... Table 3. Calculated Slater—Condon Integrals, Spin—Orbit Coupling Constants, and Ligand Field Parameters (in cm-1) for CsMgBr, Eu2+ Considering the Ground (GC) and Excited (EC) Configurations Local Structures of the Eu2+ Impurity...
A Cd2 complex with one of the tris(pyrazolyl)borate ligands mentioned in Section 6.9.4.2.3(ii) has been identified in solution by its large coupling constant 1/(113Cd,111Cd) of 20.626 kHz also a Cd11 hydride complex has been detected by NMR.410... [Pg.1286]

In order to correctly predict which ligands occupy which sites in such compounds, one must recognize that, as a general rule, fluorines will always prefer the axial site in a trigonal bipyramidal system, perhaps because of fluorine s small size, but probably also because of its preference to bind to orbitals with as little s-character as possible. The orbitals used by P to make its axial bonds have less s-character than those used to make its equatorial bonds. This is reflected by the larger F—P coupling constants to the equatorial fluorine substituents. [Pg.225]

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See also in sourсe #XX -- [ Pg.11 , Pg.12 , Pg.13 , Pg.14 , Pg.15 ]



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