Dipole moments conformational

Process structures with appropriate quantum or molecular mechanical technique to compute desired properties eg, relative energies, dipole moment, conformer populations, size, shape, etc. 

The MM2 force field3 is probably the most extensively parameterized and intensively used force field to date. It reproduces a variety of molecular properties such as geometry, dipole moments, conformational energies, barriers to rotation and heats of formation. Of particular importance for calculations of amines is that MM2 treats lone pairs on sp3 nitrogens (and oxygens) as pseudo atoms with a special atom type and parameters. A closely related force field, MM2 7, was derived from MM2 by Osawa and Jaime. MM2 uses the same potential functions as MM2, but employs a different set of parameters in an attempt to better reproduce barriers to rotation about single C—C bonds. 

Compare the two staggered conformations of 1 1 2 2 tetrafluoroethane on Learning By Mod elmg Do they differ in respect to their dipole moments How" ... 

The conformational characteristics of PVF are the subject of several studies (53,65). The rotational isomeric state (RIS) model has been used to calculate mean square end-to-end distance, dipole moments, and conformational entropies. C-nmr chemical shifts are in agreement with these predictions (66). The stiffness parameter (5) has been calculated (67) using the relationship between chain stiffness and cross-sectional area (68). In comparison to polyethylene, PVF has greater chain stiffness which decreases melting entropy, ie, (AS ) = 8.58 J/(molK) [2.05 cal/(molK)] versus... 

An appreciable amount of information concerning the conformational preferences of substituted heterocycles has accrued, largely through dipole moment and NMR studies. However, the earliest appreciation of this topic apparently arose out of the extension of studies of restricted rotation in biphenyls to heterocyclic analogues. 

Figure 8 Vectorially calculated dipole moments for the three planar conformations of l,l -thiocarbonyl-bis-...

A similar approach has been used in the case of azolides (A-acylazoles). The experimental dipole moment of 1-acetylpyrazole (1.55 D, Table 3) was compared with the CNDO/2 calculated values for the E and Z conformations, respectively 1.87 and 5.46 D. Fayet et al. concluded that the E conformer (41) largely predominates (77RRC471). 

The method has also been applied to partially saturated systems. For instance, the dipole moments of a series of 1-acylpyrazolines (42) with R = H, Me, Et and Ph have been measured (72CHE445) they range from 3.46 to 4.81 D. When compared with values computed by the fragmentary calculation method, the conclusion was reached that here also the E form predominates. In all these examples the lone pair-lone pair repulsions determine the most stable conformation. 

MO methods have been used to calculate dipole moments of each of the three ring systems (73MI50403, B-70MI50400). Calculated values for aziridine are somewhat higher (2.09-2.40 D) than the known experimental value (1.89 D). Dipole moment studies on a few simple aziridines have led to the determination of the preferred conformation of N-arylaziridines in solution and in the vapor state (71JCS(C)2104, 66DOK(169)839). For the 1-azirine system, no values have been determined experimentally, but values of 2.40-2.56 D for 1-azirine and 2.50-2.51 D for 2-azirine have been calculated (73MI50403). 

Pyrrole, 4-ethynyl-2-formyl-3-methyl-synthesis, 4, 222 Pyrrole, formyl-oxidation, 4, 289 reactions, 4, 292 with sulfoxides, 4, 293 synthesis, 4, 223, 274, 287 Pyrrole, 1-formyl-barrier to rotation, 4, 193 Pyrrole, 2-formyl-benzoylation, 4, 220 conformation, 2, 107 4, 193 diacetoxythallium derivative iodination, 4, 216 dipole moment, 4, 194 ketals, 4, 290 protonation, 4, 47 reactions... 

Trioxolane, 3-methyl-conformation, 6, 854 dipole moments, 6, 858 microwave spectra, 6, 855, 858... 

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