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Steric interactions alkylation

Quantum chemistry methods allow the prediction of the ultraviolet transitions in good agreement with the experimental values in the case of thiazole and its three methyl derivatives (Table 1-18). A very weak absorption has been indicated at 269.5 nm that could correspond to an n- TT transition given by calculation at 281.5 nm (133). Ultraviolet absorption spectroscopy has been investigated in connection with steric interactions in the A-4-thiazoline-2-thione (74) series (181). It was earlier demonstrated by NMR technique that 4-alkyl-3 isopropyl-A-4-thiazoline-2-thiones exist in solution as equilibrium mixtures of two conformers (75 and 76), the relative populations of which vary with the size of R4 (182) for R4 = rBu the population of rotamer A is 100%, whereas for R4 = Me it is only 28%. Starting from the observed absorption wavelength for... [Pg.49]

The same situation is observed in the series of alkyl-substituted derivatives. Electron-donating alkyl substituents induce an activating effect on the basicity and the nucleophilicity of the nitrogen lone pair that can be counterbalanced by a deactivating and decelerating effect resulting from the steric interaction of ortho substituents. This aspect of the reactivity of thiazole derivatives has been well investigated (198, 215, 446, 452-456) and is discussed in Chapter HI. [Pg.126]

Because of the same preference for coplanarity in the enamine system, a alkyl substituents adopt an axial conformation to minimize steric interaction with the amino groi. ... [Pg.432]

In a combined experimental and theoretical investigation it was found that the / -alkyl group in the dienophile gave a steric interaction in the transition-state structure which supported the asynchronous transition-state structure for the Lewis acid-catalyzed carbo- and hetero-Diels-Alder reactions. The calculated transition-state energies were of similar magnitude as obtained in other studies of these BF3-catalyzed carbo-Diels-Alder reactions. [Pg.309]

To control the first factor, one of the two lone pairs of the sulfide must be blocked such that a single diastereomer is produced upon alkylation. For C2 symmetric sulfides this is not an issue, as a single diastereomer is necessarily fonned upon alkylation. To control the second factor, steric interactions can be used to favor one of the two possible conformations of the ylide (these are generally accepted to be the two conformers in which the electron lone pairs on sulfur and carbon are orthogonal) [14], The third factor can be controlled by sterically hinder-... [Pg.10]

For all the olefins studied, alkyl-, fluoro-, or chloro-substituted, three binary, mononuclear species were observed. It now seems that it is a general property of Ni and Pd atom-olefin reactions at cryogenic temperatures to form complexes that have a maximum coordination of three olefin molecules per metal atom, regardless of the electronic or steric attributes of the substituent(s). As intimated previously, the absence of higher stoichiometry species, even for unsubstituted ethylene, is, most probably, the result of steric interactions (54). [Pg.149]

On page 132, atropisomerism was possible when ortho substituents on biphenyl derivatives and certain other aromatic compounds prevented rotation about the bond. The presence of ortho-substituents can also influence the conformation of certain groups. In 88, R= alkyl, the carbonyl unit is planar with the trans C=0 - F conformer more stable when X=F. When X=CF3, the cis and trans are planar and the trans predominates. When R = alkyl there is one orthogonal conformation but there are two interconverting nonplanar conformations when R=0-alkyl. In 1,2-diacylbenzenes, the carbonyl units tend to adopt a twisted conformation to minimize steric interactions. " ... [Pg.172]

The introduction of an alkyl substituent at the a-carbon in the enolate enhances stereoselectivity somewhat. This is attributed to a steric effect in the enolate minimize steric interaction with the solvated oxygen, the alkyl group is d t °... [Pg.25]

The stereoselectivity is enhanced if there is an alkyl substituent at C(l). The factors operating in this case are similar to those described for 4-r-butylcyclohexanone. The tnms-decalone framework is conformationally rigid. Axial attack from the lower face leads directly to the chair conformation of the product. The 1-alkyl group enhances this stereoselectivity because a steric interaction with the solvated enolate oxygen distorts the enolate to favor the axial attack.57 The placement of an axial methyl group at C(10) in a 2(l)-decalone enolate introduces a 1,3-diaxial interaction with the approaching electrophile. The preferred alkylation product results from approach on the opposite side of the enolate. [Pg.26]

Alkyl groups can also migrate from one position to another on the ring.36 Such migrations are also thermodynamically controlled and proceed in the direction of minimizing steric interactions between substituents. [Pg.1015]

In comparison with the decomposition of taws-azoalkanes 20 a much larger group size effect has been found for the thermolysis rates of a few c/s-azoalkanes 24. Due to the repulsion of the free electron pairs on the two nitrogen atoms and due to steric interaction between the cis oriented alkyl groups cis azoalkanes 24 decom-... [Pg.8]

C-Alkylations of l,4-dihydro-27/-pyrazino[2,l-A]quinazoline-3,6-diones at positions C-l and CM were studied in detail. Compounds of type 57 could be alkylated diastereoselectively at C-l, owing to the geometry of the piperazine ring, which is locked in a flat boat conformation with the R4 or R1 substituent in a pseudoaxial position to avoid steric interaction with the nearly coplanar C(6)-carbonyl group. Alkylation of 57 (R2 = Me, Bn, R4 = Me) in the presence of lithium hexamethyldisilazide (LHMDS) with benzyl and allyl halides resulted, under kinetic control, in the 1,4-trans-diastereomer 59 as the major product, with retention of the stereocenter at CM (Scheme 5). [Pg.267]

Various attempts to rationalize stereochemical results are inadequate in accounting for specific catalyst effects. The existing schemes rely primarily on steric interactions attributed primarily to alkyl substituents residing on the intermediate metallocycle ring. [Pg.469]

The use of Et3B as a radical initiator makes it possible to carry out the addition of other alkyl radicals to nitrone (286) using alkyl iodides. Good yields have been obtained of products (288b-d) when an excess of the appropriate alkyl iodide was used (Scheme 2.110). It has been established that the yield of alkyl by-products (288a) tends to decrease with the increase of the reaction temperature. The stereochemical features of this reaction are explained by the alkyl radical addition taking place predominantly from the less hindered re-face of (286) to avoid steric interaction with the phenyl group (525). [Pg.223]

See other pages where Steric interactions alkylation is mentioned: [Pg.56]    [Pg.56]    [Pg.469]    [Pg.42]    [Pg.120]    [Pg.298]    [Pg.258]    [Pg.8]    [Pg.38]    [Pg.47]    [Pg.57]    [Pg.338]    [Pg.64]    [Pg.234]    [Pg.149]    [Pg.150]    [Pg.237]    [Pg.91]    [Pg.418]    [Pg.109]    [Pg.298]    [Pg.308]    [Pg.374]    [Pg.153]    [Pg.1176]    [Pg.41]    [Pg.48]    [Pg.55]    [Pg.259]    [Pg.24]    [Pg.175]    [Pg.249]    [Pg.704]    [Pg.903]    [Pg.9]    [Pg.311]    [Pg.852]   
See also in sourсe #XX -- [ Pg.34 , Pg.35 , Pg.36 , Pg.37 , Pg.38 , Pg.39 ]



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Steric interaction

Sterical interaction

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