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Substituents cyano

Substituents that are otherwise accessible only with difficulty such as fluoro lodo cyano and hydroxyl may be introduced onto a benzene ring... [Pg.949]

As a class of compounds, nitriles have broad commercial utility that includes their use as solvents, feedstocks, pharmaceuticals, catalysts, and pesticides. The versatile reactivity of organonitnles arises both from the reactivity of the C=N bond, and from the abiHty of the cyano substituent to activate adjacent bonds, especially C—H bonds. Nitriles can be used to prepare amines, amides, amidines, carboxyHc acids and esters, aldehydes, ketones, large-ring cycHc ketones, imines, heterocycles, orthoesters, and other compounds. Some of the more common transformations involve hydrolysis or alcoholysis to produce amides, acids and esters, and hydrogenation to produce amines, which are intermediates for the production of polyurethanes and polyamides. An extensive review on hydrogenation of nitriles has been recendy pubHshed (10). [Pg.217]

CX-Aminonitriles are compounds containing both cyano and amine substituents attached to the same carbon atom. They are versatile synthetic intermediates that are used to make aminoacids, agrichemicals, chelants, radical initiators, and water-treatment chemicals. In some cases, aminonitriles produced as intermediates are not isolated, but immediately further reacted, for example by hydrolysis, as is the case in producing... [Pg.221]

Intramolecular Grignard Reactions. Some chemists use the reactivity of a substituent in the Gtignard reagent to generate the desired product. For example, a one-step spiroaimelation reaction has been developed by taking advantage of a dihaUde or a cyano-haUde reactant (92—94). [Pg.398]

Vinylpyridine (23) came into prominence around 1950 as a component of latex. Butadiene and styrene monomers were used with (23) to make a terpolymer that bonded fabric cords to the mbber matrix of automobile tires (25). More recendy, the abiUty of (23) to act as a Michael acceptor has been exploited in a synthesis of 4-dimethylaminopyridine (DMAP) (24) (26). The sequence consists of a Michael addition of (23) to 4-cyanopyridine (15), replacement of the 4-cyano substituent by dimethylamine (taking advantage of the activation of the cyano group by quatemization of the pyridine ring), and base-cataly2ed dequatemization (retro Michael addition). 4-r)imethyl aminopyri dine is one of the most effective acylation catalysts known (27). [Pg.326]

The patended method of preparation of the blue dye (120) [19187-01 -0] (81) involves treating the analogous dibromo substituted azo dye with cuprous cyanide in dimethylformamide or A-methylpyrrohdinone at 50°C to effect replacement of the two bromo substituents by cyano groups. [Pg.451]

Azidopyridazine 2-oxides give on thermolysis either maleonitrile (19), /3-cyanoacrylate (20) or 2-cyano-l-hydroxypyrazole (21), dependent on the substituent at the 6-position (Scheme 4) <75CC703>. [Pg.9]

The diagrams below give STO-3G calculated charge densities for the betu l cation and its a-formyl and a-cyano derivatives. Analyze die effect of these substituents on... [Pg.68]

The effect of the bond dipole associated with electron-withdrawing groups can also be expressed in terms of its interaction with the cationic u-complex. The atoms with the highest coefficients in the LUMO 3 are the most positive. The unfavorable interaction of the bond dipole will therefore be greatest at these positions. This effect operates with substituents such as carbonyl, cyano, and nitro groups. With ether and amino substituents, the unfavorable dipole interaction is overwhelmed by the stabilizing effect of the lone-pair electrons stabilizing 3. [Pg.559]

The cyano, nitro, and quaternary ammonium groups are strongly deactivating and weto-directing. Electrophilic substitutions of compounds with these substituents require especially vigorous conditions and fail completely with all but the most reactive electrophiles. [Pg.562]

Like the Cope rearrangement, the Claisen rearrangement is sensitive to substituents on the reacting system. Cyano groups promote the rearrangement by a factor of 10 at positions 2 and 4 and have smaller effects at the other positions, as shown below. Data are also available for methoxy groups at positions 2, 4, 5, and 6. ... [Pg.633]

Azo compounds having functional groups that stabilize the radical products are especially reactive. The stabilizing effect of the cyano substituent is responsible for the easy decomposition of azobis(isobutyronitrile) (AIBN), which is frequently used as a radical initiator. [Pg.673]

The stabilizing role of other functional groups can also be described in resonance terms. Both electron-attracting groups such as carbonyl and cyano and electron-donating groups such as methoxy and dimethylamino have a stabilizing etfect on a radical intermediate at an adjacent carbon. The resonance structures which depict these interactions indicate delocalization of the unpaired electron onto the adjacent substituents ... [Pg.693]

The relatively slower rearrangement of alkynyl and cyano substituents can be attributed to the reduced stability of the intermediate derived by cyclization of the triply bonded substituents ... [Pg.721]

See other pages where Substituents cyano is mentioned: [Pg.106]    [Pg.198]    [Pg.78]    [Pg.106]    [Pg.198]    [Pg.78]    [Pg.2543]    [Pg.210]    [Pg.611]    [Pg.922]    [Pg.278]    [Pg.275]    [Pg.159]    [Pg.70]    [Pg.28]    [Pg.397]    [Pg.26]    [Pg.89]    [Pg.114]    [Pg.318]    [Pg.16]    [Pg.149]    [Pg.46]    [Pg.8]    [Pg.170]    [Pg.81]    [Pg.4]    [Pg.212]    [Pg.214]    [Pg.282]    [Pg.283]    [Pg.382]    [Pg.473]    [Pg.590]    [Pg.634]    [Pg.695]    [Pg.611]    [Pg.922]    [Pg.1247]   
See also in sourсe #XX -- [ Pg.301 ]



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Cyano substituent

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