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Molecular bond

C1.1.6 RARE-GAS CLUSTERS AND OTHER WEAKLY BONDED MOLECULAR CLUSTERS... [Pg.2400]

Boron is similar to carbon in that it has a capacity to form stable covalently bonded molecular networks. Carbonates, metalloboranes, phosphacarboranes, and other families comprise thousands of compounds. [Pg.14]

This displays the HOMO of ethylene This IS an occupied bonding molecular or bital... [Pg.1273]

Figure 7.15 In HCl (a) the single-bond molecular orbital is formed by a linear combination of lx on H and 3p on Cl, and (b) electrons in the 3py. and 3py atomic orbitals on Cl remain as lone pairs... Figure 7.15 In HCl (a) the single-bond molecular orbital is formed by a linear combination of lx on H and 3p on Cl, and (b) electrons in the 3py. and 3py atomic orbitals on Cl remain as lone pairs...
The entropy value of gaseous HCl is a sum of contributions from the various transitions summarized in Table 4. Independent calculations based on the spectroscopic data of H Cl and H Cl separately, show the entropy of HCl at 298 K to be 186.686 and 187.372 J/(mol K) (44.619 and 44.783 cal/(mol K), respectively. The low temperature (rhombic) phase is ferroelectric (6). SoHd hydrogen chloride consists of hydrogen-bonded molecular crystals consisting of zigzag chains having an angle of 93.5° (6). Proton nmr studies at low temperatures have also shown the existence of a dimer (HC1)2 (7). [Pg.439]

Of these, the most extensive use is to identify adsorbed molecules and molecular intermediates on metal single-crystal surfaces. On these well-defined surfaces, a wealth of information can be gained about adlayers, including the nature of the surface chemical bond, molecular structural determination and geometrical orientation, evidence for surface-site specificity, and lateral (adsorbate-adsorbate) interactions. Adsorption and reaction processes in model studies relevant to heterogeneous catalysis, materials science, electrochemistry, and microelectronics device failure and fabrication have been studied by this technique. [Pg.443]

Fig. 1.20. Atomic orbital combinations giving rise to bonding molecular orbitals for methane. Fig. 1.20. Atomic orbital combinations giving rise to bonding molecular orbitals for methane.
The decrease in rate was proportional to the concentration of dioxane in the reaction mixture. An equivalent concentration of p-xylene (whose dielectric constant is similar to that of dioxane) produced a smaller decrease, consistent with simple dilution of the reactants. It was, therefore, hypothesized that dioxane forms an H-bonded molecular complex with phenol, the complexed form of the phenol being unreactive. The data could be accounted for with a 2 1 stoichiometry (phe-nokdioxane). This argument was supported by experiments with tetrahydrofuran, which also decreased the rate, but which required a 1 1 stoichiometry to describe the rate data. [Pg.404]

Symmetry of orbitals on the B6 octahedron, (a) Six outward-pointing (sp) orbitals used for a bonding to 6 H. (b) Six inward-pointing (sp) orbitals used to form the fi framework bonding molecular orbital, (c) ComponenLS for one of the fiM framework bonding molecular orbitals — the other two molecular orbitals are in the yz and zr planes, (d) (Components ftM one of the t2 framework bonding molecular orbitals — the other two molecular orbitals are in the yz and x planes. [Pg.177]

The hydrate N2H4.H2O is an H-bonded molecular adduct and is not ionically dissociated. Two series... [Pg.430]

Antibonding Molecular Orbital. A Molecular Orbital that is andbonding between particular atomic centers. The opposite is a Bonding Molecular Orbital. [Pg.281]

Anomeric effect of monosaccharides and their derivatives insights from the new QVBMM (quantized valence bond molecular mechanisms) molecular mechanics force field 98H(48)2389. [Pg.206]

The Nature of Chemical Bonds Molecular Orbital Theory 21... [Pg.21]

What is wrong with the following sentence "The it bonding molecular orbital in ethylene results from sideways overlap of two p atomic orbitals."... [Pg.33]

Figure 23.3 The - bonding molecular orbitals of a conjugated erone (propenal) and a conjugated diene (1,3-butadiene) are similar in shape and are spread over the entire %< system. Figure 23.3 The - bonding molecular orbitals of a conjugated erone (propenal) and a conjugated diene (1,3-butadiene) are similar in shape and are spread over the entire %< system.
No. of Terminal Atoms (X) + Species Ideal Bond Molecular ... [Pg.179]

Structures considered are quinolizinium (187), and 1,5- (188), 1,6- (189), 1,7- (190), 1,8- (191), and 2,7- (192) naphthyridines. In the naphthyridines the 10 7r-electrons are delocalized in five bonding molecular orbitals, which are distorted by the annular nitrogens in such a way that positions ortho and para to those nitrogens are less likely to be electrophilically haloge-nated than meta carbons. Compounds with a nitrogen at the ring junction carry a positive charge and will be naturally resistant to electrophilic attack. [Pg.330]

Let us now apply these results to the ethylene molecule (Fig. 14), for which we attempt to build the bonding molecular orbitals. Clearly there are three symmetry planes. Two of these are of special interest... [Pg.11]

In the interaction of the local 2pv orbitals, two more bonding molecular orbitals are formed against one less bonding. In all previous cases the opposite occurred. This is due to the negative overlap between adjacent 2py orbitals—whether, by convention, all positive lobes point in the clockwise direction, or whether all positive lobes point in the anticlockwise direction. The two bonding 2pv combinations in fact fall below the two antibonding (hybrid 2s, 2px) combinations. The former each have two electrons while the latter are empty. The six electrons of the three C—C bonds are nicely accounted for. The method creates simultaneously the acc and or c molecular orbitals of cyclopropane (note that the latter three lie relatively close in energy). [Pg.22]

The reader may now wish to compare the three bonding molecular orbitals derived in this manner with the three molecular orbitals shown at the end of the previous section. There is a strong resemblance. This similarity increases if, in the Walsh method, the 2pj/-derived molecular orbitals are allowed to mix with the (2s, 2pz)-... [Pg.22]

The coadsorption of oxygen as well as of other electronegative additives on metal surfaces favors in general the 7t-bonded molecular state of ethylene, as the latter exhibits, compared to the di-o bonded state, a more pronounced electron donor character and a negligible backdonation of electron density from the metal surface. [Pg.68]

FIGURE 3.28 The two electrons in an H2 molecule occupy the lower-energy (bonding) molecular orbital and result in a stable molecule. [Pg.241]

See other pages where Molecular bond is mentioned: [Pg.267]    [Pg.49]    [Pg.62]    [Pg.49]    [Pg.193]    [Pg.490]    [Pg.2]    [Pg.3]    [Pg.319]    [Pg.62]    [Pg.198]    [Pg.1039]    [Pg.224]    [Pg.805]    [Pg.501]    [Pg.522]    [Pg.1289]    [Pg.6]    [Pg.50]    [Pg.51]    [Pg.244]    [Pg.841]    [Pg.24]    [Pg.103]    [Pg.113]   
See also in sourсe #XX -- [ Pg.25 ]



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Molecular bonding

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