Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Energy level diagram for square planar

Schematic energy level diagram for square-planar halides. Schematic energy level diagram for square-planar halides.
Figure 5. MO energy level diagram for square-planar (D4I) cyclobutadiene. Figure 5. MO energy level diagram for square-planar (D4I) cyclobutadiene.
In Figure 52 is shown a schematic energy level diagram for square-planar complexes. The diagram shows the energy gap AE between the highest filled and the lowest unfilled M.O.s. [Pg.222]

Fig. 52. Schematic energy level diagrams for square-planar complexes. represents the energy gap between the highest occupied orbital and the lowest unoccupied orbital. I represents the case when there is only a-bonding and II shows how A is increased when there is a -bonding interaction in the Fig. 52. Schematic energy level diagrams for square-planar complexes. represents the energy gap between the highest occupied orbital and the lowest unoccupied orbital. I represents the case when there is only a-bonding and II shows how A is increased when there is a -bonding interaction in the <fxy plane...
FIGURE 17.20 A molecular orbital energy level diagram for a square planar complex. [Pg.642]

A coordinate system for a square-planar complex ML4 (Z>4h symmetry) is displayed in Fig. 8.9.1. The linear combinations of ligand orbitals, matched in symmetry with the metal orbitals, and the molecular orbitals they form, are summarized in Table 8.9.1. A schematic energy level diagram for this type of complexes is given in Fig. 8.9.2. [Pg.289]

Schematic energy level diagram for a square-planar complex ML4. Note the block of levels labelled n is present only for ligands with low-lying it orbitals such as CO, CN, and PR3. Schematic energy level diagram for a square-planar complex ML4. Note the block of levels labelled n is present only for ligands with low-lying it orbitals such as CO, CN, and PR3.
To understand why 16-electron square planar complexes might be especially stable, it is useful to examine the molecular orbitals of such a complex. An example of a molecular orbital energy level diagram for a square planar molecule of formula ML4 (L= ligand that can function as both s donor and n acceptor) is shown in Figure 3-7. [Pg.70]

FIGURE 22.24 Energy-level diagram for a square-planar complex. Because there are more than two energy levels, we cannot define crystal field splitting as we can for octahedral and tetrahedral complexes. [Pg.890]

Sketch an energy-level diagram for the 3p orbitals in a square planar field lying in the xy plane. Label all orbitals and their relative energies. [Pg.89]

Suggest the form that the orbital energy-level diagram would take for a square planar complex with the ligands in the xy plane, and discuss how the building-up principle applies. Hint The d -orbital has more electron density in the xy plane than the dzx- or d -orbitals but less than the dXJ,-orbital. [Pg.817]

Suggest the form the orbital energy-level diagram would take for a square planar complex and discuss how the building-up principle applies. Hint ... [Pg.944]

With the energy level scheme shown in Fig. 8.9.2, we can easily derive two types of energy level diagrams those for halides, as shown in Fig. 8.9.3, and those for cyanides, as shown in Fig. 8.9.4. We will make use of these results to interpret some spectral data for square-planar ML4 complexes. [Pg.291]

See other pages where Energy level diagram for square planar is mentioned: [Pg.151]    [Pg.151]    [Pg.168]    [Pg.185]    [Pg.623]    [Pg.901]    [Pg.907]    [Pg.319]    [Pg.124]    [Pg.168]    [Pg.108]    [Pg.124]    [Pg.356]    [Pg.168]    [Pg.377]    [Pg.168]    [Pg.142]    [Pg.168]    [Pg.1150]    [Pg.1462]    [Pg.641]    [Pg.564]    [Pg.214]    [Pg.266]    [Pg.130]    [Pg.511]    [Pg.109]    [Pg.214]    [Pg.214]    [Pg.404]   


SEARCH



Energy diagram for

Energy diagrams

Energy level diagram

© 2024 chempedia.info