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Valence electrons structure

Concelcao J, Laaksonen R T, Wang L S, Guo T, Nordlander P and Smalley R E 1995 Photoelectron spectroscopy of transition metal clusters correlation of valence electronic structure to reactivity Rhys. Rev. B 51 4668... [Pg.2403]

A. Simon, Clusters of metals poor in valence electrons - structures, bonding, properties. Angew. Chem. Int. Ed. 27 (1988) 159. [Pg.253]

Using the empirical parameters given below for B and H (taken from Appendix F and "The HMO Model and its Applications" by E. Heilbronner and H. Bock, Wiley-Interscience, NY, 1976), apply the Hiickel model to borane (BH3) in order to determine the valence electronic structure of this system. [Pg.498]

Thinking about the position of elements in the periodic table and their valence electron structure should help in understanding the relative order of the reduction potentials. Fluorine gas is very electronegative and readily accepts electrons to obtain a stable configuration. Conversely, alkalines and... [Pg.183]

Semi-empirical molecular orbital, MO, theory uses a combination of experimental data and quantum mechanical MO methods to model the valence electronic structure of molecules. In the MNDO (8) method each atom is parameterized using experimental data. This calculation provides molecular orbital descriptions of the valence electrons, as well as effective charges of each atom in the molecule. [Pg.167]

Some aspects of the electronic structure of DP 7 need to be mentioned in order to facilitate the discussion of the metallization. The valence electronic structure of DP7, obtained with Hell... [Pg.100]

For simplicity, the G-n separation is imposed in the VB calculations for the ground and excited states since low-lying excitations only involve the 7t electrons in selected species O3, C3 and C3H5. After the G-n separation, the symmetry of both the ground electronic state and the 7t excited states only depends on 7t valence electronic structures because a doubly occupied a core within the MO formalism is always total symmetric, and does not affect the symmetry of electronic states. If the three p orbitals forming n bonds in O3 are numbered as... [Pg.177]

The UPS of the haloethenes was reviewed by Wittel and Bock in Supplement D of this Series4. The haloethenes for which UPS data are available constitute less than half of the 174 compounds which can be made by substituting different combinations of H, F, Cl, Br and I atoms on the C=C bond. However, the valence electronic structures and the nature of the ncc orbitals appear to be well understood. Nonetheless, if the past be any guide, some unexpected results will turn up. Thus, tetrafluoroethene was among the first compounds in which a perfluoro effect was observed. The TS interaction between fluorine atoms was discovered in ds,-difluoroethene. Some data for haloethenes and allyl halides are given in Table 6. [Pg.156]

The valence electronic structures of d tetrahedral transition metal molecules are of the form... [Pg.3843]

Figure 1 Depiction of the valence electronic structure of a monomeric RM compound... Figure 1 Depiction of the valence electronic structure of a monomeric RM compound...
A molecular orbital treatment of the valence electronic structure of porphyrins indicates that the HOMO are two n orbitals that are close in energy to each other, but well separated in energy from all other occnpied orbitals. The relative energy of these two orbitals is predicted to be dependent npon the snbstituents present. For metalloporphyrins, which are discussed in the next section, occupied metal orbitals may be in the same energy region as these ligand-based orbitals, and the specific metal or ancUhary... [Pg.6293]

Recent development of the computational technique for electronic state of materials enables us to calculate the accurate valence electronic structure of fairly large and complicated systems from the first principles. However, it is still very important to investigate the electronic state and chemical bonding of a simple and small cluster model of metal element, because the basic imderstanding of the essential properties of the metal elements is not sufficient. It is also very useful to investigate a small cluster model in understanding various kinds of properties and phenomena of more complicated metallic materials like alloys and intermetallic compounds, because the fundamental electronic state is reflected in their properties. [Pg.50]

Further investigation has been made for dependence of the valence electronic structure upon the geometrical structure. As an example, we take two model clusters, one of which is for fee lattice and the other bcc. These clusters are shown in Fig.l4 (a) is fee cluster model Mjg and (b) bcc cluster M jg. In order to compare the electronic states and to clarify the difference between fee and bcc lattices, we take Fe metal as an example, and DOS curves are displayed in Fig.15. In this figure, (a) is the case of crystal and (b) of cluster. The solid line denotes DOS for fee crystal and dotted line for bcc. These results for the crystals havebeen obtained by band structure calculations by other authors. In the case of bcc, roughly speaking the d band is split into three bands, and the difference between two structures are clearly seen. If we use the cluster model to investigate the difference of the d band between the two lattice structures, we obtain the DOS for fee and bcc clusters as shown in Fig.l5(b). As is mentioned above, the width of the d band of these small clusters are somewhat narrower compared with that of bulk, but the essential characteristics of the band structure of the fee and bcc... [Pg.62]

Finally, Table 5 presents the results of all-electron and all-pseudopotential calculations on the valence electronic structure of the PdCl dianion. [Pg.145]

Vacancy-induced variation of valence-electron structure 3.2.1 Covalent systems... [Pg.380]

Fig. 2 Schematic illustration of the valence electron structure of light and heavy Si-bearing molecules (a) and the Si 1-type valence charge fiactions in dependence on inner-shell vacancy configuration (b) cf. [36]. Fig. 2 Schematic illustration of the valence electron structure of light and heavy Si-bearing molecules (a) and the Si 1-type valence charge fiactions in dependence on inner-shell vacancy configuration (b) cf. [36].
Fig. 4 Valence electron structure of various metal fluorides XF2, represented by (FX3) (D3h)-clusters (on the left) and of 1F2 in dependence on growing number of F K- and L-shell vacancies. Fig. 4 Valence electron structure of various metal fluorides XF2, represented by (FX3) (D3h)-clusters (on the left) and of 1F2 in dependence on growing number of F K- and L-shell vacancies.
Similar effects can also occur in surface electronic structure when a moiety is weakly physisorbed onto the surface. The surface core-level shifts measured at the vacuum interface are reduced when atoms or molecules are physisorbed onto the surface. Changes may also occur in the valence electronic structure upon physisorption, such as the disappearance of intrinsic surface states on metals and semiconductors. [Pg.22]

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See also in sourсe #XX -- [ Pg.163 ]



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