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Molecular intermolecular bonds

Analytical chemistry having an interdisciplinary character cannot set aside the attractive power and advances of supramolecular chemistry - the chemistry beyond the molecule or the chemistry of molecular assemblies and of intermolecular bonds as defined by Jean-Marie Lehn, who won the Nobel Prize in 1987. Recognition, reactivity, and transport, as well as self-assembly, self-organization and self-replication are the basic functional features of supramolecular species and chemistry. [Pg.417]

Consequently, AG is defined by Cc coefficient as well as by the change of element deflection, labor over the system, and the number of intermolecular bonds. The value of Cc approaches the A G value observed in similar reactions with the participation of only low-molecular compounds. As intermolecular bonds are distributed in elements according to Gibbs distribution, then chain parts between the molecular bonds and branching points possess different lengths in which the lengths of nonassociated parts are also different. Gibbs distribution is only performed in polymer equilibrium, which usually exists in so-called stationary states. [Pg.365]

The solvent in which the polymer network swelled is able to change the number of intermolecular bonds, to decrease observable flexibility of chain parts between points, and to stretch the system, i.e., to perform labor over it. Its influence on the Qon parameter, according to accepted approximations, is similar to the influence on the process in which only low-molecular compounds participate. Some deviation can be observed as a consequence of suppressing the solvent molecules in the network. One can find that the change of observable local rigidity of the chain as a consequence of network swelling is similar by its first approximation to its change for... [Pg.367]

Table 5 shows that the ratio of the excretion rate under hydrous condition to that under anhydrous condition decreases with the decreasing water solubility of the salicylate or with the oil/water distribution coefficient. It can be said that the more water soluble compound is aided to a greater degree by the presence of moisture than those of lesser solubility. This trend is, however, not a direct proportionality due to the influence of other physical phenomena such as viscosity, molecular size, and intermolecular bonding. [Pg.616]

For the transformation of the macrocomposite model to a molecular composite model for the ultimate strength of the fibre the following assumptions are made (1) the rods in the macrocomposite are replaced by the parallel-oriented polymer chains or by larger entities like bundles of chains forming fibrils and (2) the function of the matrix in the composite, in particular the rod-matrix interface, is taken over by the intermolecular bonds between the chains or fibrils. In order to evaluate the effect of the chain length distribution on the ultimate strength the monodisperse distribution, the Flory distribution, the half-Gauss and the uniform distribution are considered. [Pg.55]

Other Compounds. The molecular crystal I2 has been studied by Pasternak, Simopoulos, and Hazony (26). By measuring the temperature dependence of the recoilless fraction they obtained an effective Moss-bauer temperature, Om = 60°K., which is considerably less than the range found for the alkali iodides, Om = 100° to 120 °K. Because the covalent intramolecular bonding in I2 is much stronger than the intermolecular bonding, it is reasonable to assume for data interpretation that the recoil energy is taken up by the entire I2 molecule. [Pg.145]

Molecular. These are the usual solvents. Solvent molecules may adhere together by van der Waals forces alone, or involve stronger intermolecular bonding ... [Pg.63]


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See also in sourсe #XX -- [ Pg.20 ]




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Intermolecular bonding

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Intermolecular bonds

Molecular bonding

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