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Hydrogen bonding covalent nature

P. Gilli, V. Ferretti, V. Bertolasi, and G. Gilli, Evidence for resonance-assisted hydrogen bonding. Covalent nature of the strong homonuclear hydrogen bond. Study of the O-H- O system by crystal structure correlation methods, J. Am. Chem. Soc. 116, 909-915 (1994). [Pg.144]

The term polymer is derived from the Greek words poly and meros, meaning many parts. We noted in the last section that the existence of these parts was acknowledged before the nature of the interaction which held them together was known. Today we realize that ordinary covalent bonds are the intramolecular forces which keep the polymer molecule intact. In addition, the usual type of intermolecular forces—hydrogen bonds, dipole-dipole interactions, and London forces—hold assemblies of these molecules together in the bulk state. The only thing that is remarkable about these molecules is their size, but that feature is remarkable indeed. [Pg.3]

The ortho effect may consist of several components. The normal electronic effect may receive contributions from inductive and resonance factors, just as with tneta and para substituents. There may also be a proximity or field electronic effect that operates directly between the substituent and the reaction site. In addition there may exist a true steric effect, as a result of the space-filling nature of the substituent (itself ultimately an electronic effect). Finally it is possible that non-covalent interactions, such as hydrogen bonding or charge transfer, may take place. The role of the solvent in both the initial state and the transition state may be different in the presence of ortho substitution. Many attempts have been made to separate these several effects. For example. Farthing and Nam defined an ortho substituent constant in the usual way by = log (K/K ) for the ionization of benzoic acids, postulating that includes both electronic and steric components. They assumed that the electronic portion of the ortho effect is identical to the para effect, writing CTe = o-p, and that the steric component is equal to the difference between the total effect and the electronic effect, or cts = cr — cte- They then used a multiple LFER to correlate data for orrAo-substituted reactants. [Pg.336]

The nature of the bonds between an oxygen atom and two atoms of hydrogen has an enormous impact on how our planet works. Because of the highly polar covalent bond, salt dissolves in water, which enabled our ancestors to preserve meat. It also produces the hydrogen bonds that make our lakes freeze from the top down, per-... [Pg.107]

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See also in sourсe #XX -- [ Pg.399 ]



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Bonding nature

Covalent bonding nature

Hydrogen bond nature

Hydrogen covalent

Hydrogen covalent bonding

Hydrogen covalent bonds

Hydrogen natural

Hydrogen nature

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