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Electron withdrawing groups compounds

Alkyllithium bases are generally less suitable for deprotofiation of compounds with strongly electron-withdrawing groups such as C=0, COOR and CsN. In these cases lithium dialkylamides, especially those with bulky groups (isopropyl, cyclohexyl), are the reagents of choice. They are very easily obtained from butyllithium and the dialkylamine in the desired solvent. [Pg.10]

Electron releasing substituents attached to the ring have a negligible effect on the acidity of phenols Strongly electron withdrawing groups increase the acidity The compound 4 nitro 3 (tnfluoromethyl)phenol for example is 10 000 times more acidic than phenol... [Pg.1016]

Methylene derivatives ate readily formed in the vapor phase with compounds having a hydrogen in the alpha position to an electron-withdrawing group. Acryhc (40,41) and methacrylic (42) acids (or esters) are produced at 300—425°C from acetic and propionic acids (or esters), respectively, using alkafl and... [Pg.491]

Hydroxybenzaldehydes readily react with compounds containing methyl or methylene groups bonded to one or two carboxyl, carbonyl, nitro, or similar strong electron-withdrawing groups. The products are usually P-substituted styrenes. 4-Hydroxybenzaldehyde, for example, reacts with 2-methylquinazolines (where R = H, Cl) to give compounds which have anti-inflammatory activity (59). [Pg.506]

As a variation on the base-catalyzed nucleopbilic displacement chemistry described, polysulfones and other polyarylethers have been prepared by cuprous chloride-catalyzed polycondensation of aromatic dihydroxy compounds with aromatic dibromo compounds. The advantage of this route is that it does not require that the aromatic dibromo compound be activated by an electron-withdrawing group such as the sulfone group. Details of this polymerization method, known as the Ullmaim synthesis, have been described (8). [Pg.462]

Substituted isoxazoles, pyrazoles and isothiazoles can exist in two tautomeric forms (139, 140 Z = 0, N or S Table 37). Amino compounds exist as such as expected, and so do the hydroxy compounds under most conditions. The stability of the OH forms of these 3-hydroxy-l,2-azoles is explained by the weakened basicity of the ring nitrogen atom in the 2-position due to the adjacent heteroatom at the 1-position and the oxygen substituent at the 3-position. This concentration of electron-withdrawing groups near the basic nitrogen atom causes these compounds to exist mainly in the OH form. [Pg.36]

Azole iV-oxides, iV-imides and iV-ylides are formally betaines derived from iV-hydroxy-, iV-amino- and iV-alkyl-azolium compounds. Whereas iV-oxides (Section 4.02.3.12.6) are usually stable as such, in most cases theiV-imides (Section 4.02.3.12.5) andiV-ylides (Section 4.02.3.12.3) are found as salts which deprotonate readily only if the exocyclic nitrogen or carbon atom carries strongly electron-withdrawing groups. [Pg.43]

NH form e.g. 505). Most 4- and 5-hydroxy compounds of types (500) and (502) exist largely in these non-aromatic azolinone forms, although the hydroxyl form can be stabilized by chelation e.g. 506). The derived ambident anions react with electrophiles at O or C. Replacement of the hydroxyl group is sometimes possible provided electron-withdrawing groups are present as, for example, in 5-substituted 4-hydroxypyrazoles. [Pg.101]

In comparison with mercapto-, hydroxy-, and amino-pyridines, methylpyridines should show an even greater tendency to exist in the methyl form [instead of as pyridmethines (297)] than do the amino compounds to exist as such. If the methyl carbon atom carries an electron-withdrawing group, it might be expected that structures of type 297 would be stabilized. Fused benzo groups should also tend to stabilize the methine form, and tautomerism involving 298 has, in-... [Pg.426]

An interesting intermediate 30 was proposed to result from the sequential addition of pyridine to tetrachlorocyclopropene (31). Compound 30 represents an alkyl nitrogen ylide with two 1-chloroalkyl pyridinium moieties in the same molecule. Pyridines with electron-withdrawing groups and heterocycles with an electron-deficient nitrogen, for example, pyridine-3-carbaldehyde or quinoline, react with 31 to yield the corresponding mono-substituted products 32a and 32b (83JOC2629) (Scheme 8). [Pg.188]

Available evidence shows that these compounds exist in the oxo form except when an electron-withdrawing group is present in the 5-(or 4-) position. [Pg.50]

This formulation is supported by the proton resonance spectrum of the trifluoromethyl compound 101 which shows that it exists in the CH form shownd However, strong electron-withdrawing groups in the 4-position apparently lead to enolization, and compound 102, for example, gives an intense color with ferric chloride, - Other 4-acylated oxazol-5-ones are often formulated as 103 (see, e.g, reference 113). Tautomerism of the type illustrated by the equilibrium 104 103 has been discussed (see reference 115 for further references). [Pg.51]

See other pages where Electron withdrawing groups compounds is mentioned: [Pg.114]    [Pg.111]    [Pg.429]    [Pg.247]    [Pg.114]    [Pg.111]    [Pg.429]    [Pg.247]    [Pg.262]    [Pg.297]    [Pg.511]    [Pg.426]    [Pg.221]    [Pg.298]    [Pg.493]    [Pg.331]    [Pg.332]    [Pg.190]    [Pg.390]    [Pg.79]    [Pg.47]    [Pg.82]    [Pg.452]    [Pg.403]    [Pg.286]    [Pg.297]    [Pg.86]    [Pg.49]    [Pg.78]    [Pg.266]    [Pg.40]    [Pg.417]    [Pg.110]    [Pg.511]    [Pg.445]    [Pg.125]    [Pg.149]    [Pg.295]    [Pg.109]    [Pg.146]    [Pg.150]    [Pg.238]   
See also in sourсe #XX -- [ Pg.717 ]



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Electron compounds

Electron withdrawal

Electron withdrawers

Electron withdrawing groups

Electronic compounds

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