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T2g orbital

Finally, note that no combination of ligand a orbitals interacts with members of the metal t2g set. The vanishing overlap between any ligand a orbital and, say, the dxy orbital is illustrated in Fig. 6-8. Overall, therefore, the metal t2g orbitals are nonbonding in this scheme. Recall how the 2p orbital of oxygen is similarly nonbonding to the hydrogen orbitals in water. [Pg.111]

Figure 6-10. Symmetry matching of metal t2g orbitals with ligand k functions. Similar diagrams may be drawn in the xz and yz planes. Figure 6-10. Symmetry matching of metal t2g orbitals with ligand k functions. Similar diagrams may be drawn in the xz and yz planes.
KT1 does not have the NaTl structure because the K+ ions are too large to fit into the interstices of the diamond-like Tl- framework. It is a cluster compound K6T16 with distorted octahedral Tig- ions. A Tig- ion could be formulated as an electron precise octahedral cluster, with 24 skeleton electrons and four 2c2e bonds per octahedron vertex. The thallium atoms then would have no lone electron pairs, the outside of the octahedron would have nearly no valence electron density, and there would be no reason for the distortion of the octahedron. Taken as a closo cluster with one lone electron pair per T1 atom, it should have two more electrons. If we assume bonding as in the B6Hg- ion (Fig. 13.11), but occupy the t2g orbitals with only four instead of six electrons, we can understand the observed compression of the octahedra as a Jahn-Teller distortion. Clusters of this kind, that have less electrons than expected according to the Wade rules, are known with gallium, indium and thallium. They are called hypoelectronic clusters their skeleton electron numbers often are 2n or 2n — 4. [Pg.146]

Multipole analysis with high-resolution X-ray data for [Ni(thmbtacn)]2+ was carried out to determine the electron configuration in the C3 symmetry-adapted orbitals of the Ni ion, confirming a higher occupancy of the crystal field-stabilized t2g orbitals relative to the destabilized eg orbitals. This is interpreted in terms of a predominantly ionic metal-ligand interaction.1424... [Pg.375]

An extended Hiickel MO calculation supports the assumptions made in the above analysis in that the three t2g orbitals are indeed close together in energy and remain nearly nonbonding metal-based d-orbitals. The detailed agreement is less satisfactory the SOMO is predicted to be primarily dx2 y2 with a small dxz admixture (hybrid 6 of Table 4.13), a result that can be ruled out from our analysis of the ESR results. The EHMO overlap matrix based on the X-ray structure suggests that the molecule is much closer to C2 symmetry than to Cs. If we accept that conclusion, then dxzjdxy hybridization is less likely than dyjdxy, as we tacitly assumed above. [Pg.85]

The intense colors in 2,2/-bipyridyl complexes of iron(II), ruthenium(II), and osmium(II) are due to excitation of an electron from metal t2g orbitals to an empty, low-lying ir orbital of a conjugated 2,2 bipyridyl ligand. The photoexcitation of this MLCT excited state can lead to emission as the excited state collapses back to the ground state. However, not all complexes are... [Pg.724]

The adsorbed sensitizers in the excited state inject an electron into the conduction band of the semiconductor substrate, provided that the excited state oxidation potential is above that of the conduction band. The excitation of the sensitizer involves transfer of an electron from the metal t2g orbital to the 7r orbital of the ligand, and the photo-excited sensitizer can inject an electron from a singlet or a triplet electronically excited state, or from a vibrationally hot excited state. The electrochemical and photophysical properties of both the ground and the excited states of the dye play an important role in the CT dynamics at the semiconductor interface. [Pg.746]

The heat of hydration of an ion is related to its size and charge (see Chapter 7). However, in this case the aqua complex that is formed causes the d orbitals to be split in energy, and if the metal ion has electrons in the d orbitals, they will populate the t2g orbitals, which have lower energy. This results in... [Pg.627]

FIGURE 18.9 Interpretation of M—charge transfer absorption in an octahedral complex using a modified molecular orbital diagram.The transitions are from e or t2g orbitals on the metal to orbitals on the ligands. [Pg.667]

A high spin complex is the Crystal Field designation when all t g and eg orbitals are singly occupied before pairing begins. A low spin complex, on the other hand, is the Crystal Field designation, where electrons paired in t2g orbitals before eg orbitals are occupied. The low spin configuration can exist only for octahedral... [Pg.422]

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See also in sourсe #XX -- [ Pg.65 ]

See also in sourсe #XX -- [ Pg.393 ]



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T2g orbitals

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