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Steric complementation

The optimal PCcavity values are in the range of 55-70% (Table 3) for the complexes in which the guest molecules are included via steric complementation and no interaction between host and guest molecules. Complexes... [Pg.449]

There are two general theories of the stabUity of lyophobic coUoids, or, more precisely, two general mechanisms controlling the dispersion and flocculation of these coUoids. Both theories regard adsorption of dissolved species as a key process in stabilization. However, one theory is based on a consideration of ionic forces near the interface, whereas the other is based on steric forces. The two theories complement each other and are in no sense contradictory. In some systems, one mechanism may be predominant, and in others both mechanisms may operate simultaneously. The fundamental kinetic considerations common to both theories are based on Smoluchowski s classical theory of the coagulation of coUoids. [Pg.532]

A recent paper by Leffek and Matheson (1971) nicely complements this work, as it describes the results of a careful investigation of the temperature dependence of the kinetic isotope effect in the reaction studied by Kaplan and Thornton (1967). It is found that AAH = 134 + 30 cal mol and dd/S = 0-15 + 0-09 cal mol deg , demonstrating that the isotope effect is primarily due to an enthalpy difference, and providing support for the steric interpretation suggested by Kaplan and Thornton (1967). [Pg.20]

The preference for the /3-silyl isomer product complements methods available for hydrostannation of alkynes, for which the a-stannyl regioisomer is formed preferentially.70 7011 70c In addition, the /3-silyl products serve as the platform for a tertiary alcohol synthesis (Scheme 15). Upon treatment of vinylsilanes such as B with tetrabutylam-monium fluoride (TBAF) in DMF at 0 °C, a 1,2 carbon-to-silicon migration occurs, affording the tertiary heterosilane E. Oxidation of the C-Si bond then provides the tertiary alcohol. Good 1,2-diastereocontrol has been demonstrated for y-alkoxy substrates, as in the example shown. The studies suggest that the oxidation of the sterically demanding silane intermediate is facilitated by the intramolecular formation of a silyl hemiketal or silyllactone for ketone or ester substrates, respectively.71... [Pg.803]

This [3 + 2] addition approach has been extended successfully to indole derivatives. The ready availability of the precursor tosylanilides provides a novel and useful complement to the current approach (94MI3). However, me(a-substituted tosylanilide yields a mixture of two regioisomeric indoles 107a and 107b in different ratios depending on the nature of substitutents (Scheme 30). Furthermore, the reaction of o-methyltosylamide with 102 does not produce any detectable amount of the desired indole, plausibly due to the repulsive peri-type steric interactions as indicated in 108, which would be unavoidable as the carbene approaches the CH bond. [Pg.29]

Over the span of two decades, molecular modeling has emerged as a viable and powerful approach to chemistry. Molecular mechanics calculations coupled with computer graphics are now widely used in lieu of tactile models to visualize molecular shape and quantify steric demands. Quantum chemical calculations, once a mere novelty, continue to play an ever increasing role in chemical research and teaching. They offer the real promise of being able to complement experiment as a means to uncover and explore new chemistry. [Pg.803]

If the main-chain hydrogen bonding of substrates is conserved among aspartic proteinases, how are the differences in specificities achieved Table 1 defines the enzyme residues that line the specificity pockets for both mouse and human renin. In modeling exercises (e.g., Reference 4) it was assumed that specificities derive from differences in the sizes of the residues in the specificity pockets (Sn) and their ability to complement the corresponding side chains at positions Pn in the substrate/inhibitor. A detailed analysis now shows that this simple assumption only partly accounts for the steric basis of specificity. [Pg.333]

Several reports on the application of the intermolecular arylation of primary alkylamines have appeared. For example, the reaction of primary amines with chloro 1,3 azoles has been used to produce the H-l-antihistaminic norastemizole [153]. As shown in Eq. (32), the palladium chemistry is dictated by the steric properties of the amines. This property creates selectivity that complements the thermal chemistry, which is dictated by amine nucleophilicity. These researchers have also shown that this high selectivity for arylation of primary over secondary amines with catalysts containing BINAP as ligand allows for the rapid assembly of other multiamino-based structures [154]. [Pg.230]

See other pages where Steric complementation is mentioned: [Pg.246]    [Pg.246]    [Pg.247]    [Pg.246]    [Pg.246]    [Pg.247]    [Pg.336]    [Pg.419]    [Pg.156]    [Pg.32]    [Pg.31]    [Pg.306]    [Pg.137]    [Pg.160]    [Pg.121]    [Pg.134]    [Pg.116]    [Pg.957]    [Pg.391]    [Pg.238]    [Pg.24]    [Pg.67]    [Pg.204]    [Pg.214]    [Pg.446]    [Pg.471]    [Pg.257]    [Pg.136]    [Pg.580]    [Pg.164]    [Pg.181]    [Pg.595]    [Pg.165]    [Pg.126]    [Pg.323]    [Pg.219]    [Pg.360]    [Pg.441]    [Pg.191]    [Pg.44]    [Pg.227]    [Pg.161]    [Pg.320]    [Pg.24]    [Pg.31]   
See also in sourсe #XX -- [ Pg.247 ]



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Complement

Complementation

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