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Hydrocarbons covalent bonds

When subjected to an electron bombardment whose energy level is much higher than that of hydrocarbon covalent bonds (about 10 eV), a molecule of mass A/loses an electron and forms the molecular ion, the bonds break and produce an entirely new series of ions or fragments . Taken together, the fragments relative intensities constitute a constant for the molecule and can serve to identify it this is the basis of qualitative analysis. [Pg.48]

This is another version of Biospan with surface modification by an oligomeric hydrocarbon covalently bonded to the base polymer during synthesis. The additive has a pronounced effect on the polymer surface chemistry but little effect on the bulk properties of the base polymer according to the manufacturer (Tables 4.3, 4.12, 4.13, and 4.14). [Pg.312]

Silicon, unlike carbon, does notiorm a very large number of hydrides. A series of covalently bonded volatile hydrides called silanes analogous to the alkane hydrocarbons is known, with the general formula Si H2 + 2- I uf less than ten members of the series have so far been prepared. Mono- and disilanes are more readily prepared by the reaction of the corresponding silicon chloride with lithium aluminium hydride in ether ... [Pg.175]

We 11 begin our discussion of hydrocarbons by introducing two additional theories of covalent bonding the valence bond model and the molecular orbital model... [Pg.58]

If the polymer is completely cross-linked (/= 1) then the modulus (Ej) is known it is that of diamond, 10 GPa. If it has no covalent bonds at all, then the modulus (E2) is that of a simple hydrocarbon like paraffin wax, and that, too, is known it is 1 GPa. [Pg.240]

In recent years it has become clear that the structure of metals and alloys may be described in terms of covalent bonds that resonate among the alternative interatomic positions in the metals, and that this resonance is of greater importance for metals than for substances of any Other class, including the aromatic hydrocarbons. Moreover, the phenomenon of metallic resonance of the valency bonds must be given explicit consideration in the discussion of metallic valency it is necessary in deducing the metallic valency from the number of available electrons and bond orbitals to assign to one orbital a special r le in the metallic resonance. [Pg.230]

As the cation becomes progressively more reluctant to be reduced than [53 ], covalent bond formation is observed instead of electron transfer. Further stabilization of the cation causes formation of an ionic bond, i.e. salt formation. Thus, the course of the reaction is controlled by the electron affinity of the carbocation. However, the change from single-electron transfer to salt formation is not straightforward. As has been discussed in previous sections, steric effects are another important factor in controlling the formation of hydrocarbon salts. The significant difference in the reduction potential at which a covalent bond is switched to an ionic one -around -0.8 V for tropylium ion series and —1.6 V in the case of l-aryl-2,3-dicyclopropylcyclopropenylium ion series - may be attributed to steric factors. [Pg.216]

Diamondoids, when in the solid state, melt at much higher temperatures than other hydrocarbon molecules with the same number of carbon atoms in their structures. Since they also possess low strain energy, they are more stable and stiff, resembling diamond in a broad sense. They contain dense, three-dimensional networks of covalent bonds, formed chiefly from first and second row atoms with a valence of three or more. Many of the diamondoids possess structures rich in tetrahedrally coordinated carbon. They are materials with superior strength-to-weight ratio. [Pg.209]

P, N, O, S, or C based, which favor covalent bonding and stabilize low oxidation states) due to the metals higher electronegativity and lower oxidation states [24], In recent years, late transition metal catalysts [25-29] have attracted attention not only for the polymerization of a-olefins, but more importantly for the copolymerization of hydrocarbon monomers with readily available polar monomers such as acrylates, vinyl ethers, and vinyl acetate [27 and references therein]. [Pg.163]

Two structures are possible for the interaction of aromatic hydrocarbons with acids.270 In the a-structures a covalent bond is established between the acidic reagent and a particular carbon atom of the benzene ring. The a-structures are essentially classical carbonium ions. In the -structures a non-classical bond is established, not to any particular atom, but to the -electron cloud in general. It is quite likely that both types of structure are represented by actual examples. Thus m-xylene interacts more strongly with hydrogen chloride than does o-xylene, but the difference between the two hydrocarbons is much more pronounced when their interactions with a boron trifluoride-hydrogen fluoride mixture are compared. This is readily understandable... [Pg.141]

See other pages where Hydrocarbons covalent bonds is mentioned: [Pg.114]    [Pg.126]    [Pg.146]    [Pg.101]    [Pg.187]    [Pg.190]    [Pg.195]    [Pg.301]    [Pg.304]    [Pg.929]    [Pg.2]    [Pg.679]    [Pg.950]    [Pg.174]    [Pg.174]    [Pg.220]    [Pg.64]    [Pg.193]    [Pg.196]    [Pg.206]    [Pg.359]    [Pg.285]    [Pg.249]    [Pg.1438]    [Pg.265]    [Pg.173]    [Pg.176]    [Pg.307]    [Pg.5]    [Pg.4]    [Pg.268]    [Pg.358]    [Pg.361]    [Pg.282]    [Pg.697]    [Pg.20]   
See also in sourсe #XX -- [ Pg.82 ]



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