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Enamines basicity

Ultraviolet absorptions ofvinylogous lactams were found by MOLCAO calculations and compared with experimental values (663). Infrared spectroscopic studies of vinylogous amides (664) and some fifty vinylogous urethanes (665) allowed configurational and structural assignments. The effect of enamine-imine equilibrium in a series of benzophenone derivatives was established (666) and the effect of structure on enamine basicity studied (667). [Pg.344]

Enamines with a tertiary nitrogen atom may be more basic than tertiary amines or enamines with a primary or secondary nitrogen atom [5-9]. The presence of a-alkyl substituents increases basicity, whereas /3-alkyl substituents decrease basicity [10]. Stamhuis [11a] and co-workers found that the morpholine, piperidine, and pyrrolidine enamines of isobutyraldehyde in aqueous solutions are 200-1000 times weaker bases than the starting secondary amines and 30-200 times less basic than the corresponding saturated tertiary amines [11a]. For further discussion of enamine basicity see Stollenberger and Martin [lib]. [Pg.302]

Enamine basicity has been investigated exclusively by the ICR technique, one of the most salient features of which is the low working pressures usually employed (between 10- 7 and 10- 4 torr). Drift-cell instruments allow the ion-molecule reaction to develop with thermalization of the species involved in the equilibrium in a few milliseconds at a pressure of ca 10- 4 torr. Trapped-ion cell instruments afford reaction times of up to... [Pg.697]

The N-basicity of the commonly used amines (pyrrolidine > piperidine > morpholine) drops by 2-3 orders of magnitude as a consequence of electron pair delocalization in the corresponding enamines. This effect is most pronounced in morpholino enamines (see table below). Furthermore there is a tendency of the five-membered ring to form an energetically favorable exocyclic double bond. This causes a much higher reactivity of pyrroUdino enamines as compared to the piperidino analogues towards electrophiles (G.A. Cook, 1969). [Pg.13]

Reaction with vatious nucleophilic reagents provides several types of dyes. Those with simple chromophores include the hernicyanine iodide [16384-23-9] (20) in which one of the terminal nitrogens is nonheterocyclic enamine triearbocyanine iodide [16384-24-0] (21) useful as a laser dye and the merocyanine [32634-47-2] (22). More complex polynuclear dyes from reagents with more than one reactive site include the trinuclear BAB (Basic-Acidic-Basic) dye [66037-42-1] (23) containing basic-acidic-basic heterocycles. Indolizinium quaternary salts (24), derived from reaction of diphenylcyclopropenone [886-38-4] and 4-picoline [108-89-4] provide trimethine dyes such as (25), which absorb near 950 nm in the infrared (23). [Pg.395]

These steric factors are also indicated by the relative basicity of enamines derived from five-, six-, and seven-membered ketones. The five- and seven-membered enamines are considerably stronger bases, indicating better conjugation between the amine lone pair and the double bond. The reduced basicity of the cyclohexanone enamines is related to the preference for exo and endo double bonds in six-membered rings (see Section 3.10). [Pg.432]

To overcome this, the A -acetyl group is reduced with lithium aluminum hydride. The resulting basic enamine then reacts extremely rapidly and selectively with peracid. The derived epoxide is hydrolyzed very easily with alkali during the workup. [Pg.189]

The saturated amine (88) was separated from the enamine (87) by basic hydrolysis, which resulted in the hydrolysis of the enamine. The perchlorate salt of the enamine (89) showed a strong absorption in the infrared at 1680 (characteristic of... [Pg.27]

Electrophilic attack can occur on the /3-carbon atom as well as on the nitrogen atom. The fact that enamines are basic compounds is a further characteristic property. [Pg.101]

Hydrolysis of simple enamines appears to be very easy and decomposition to the corresponding carbonyl compound and the secondary amine can be achieved readily by adding water to these compounds. Basicity as well as... [Pg.101]

It is noteworthy that the kinetics indirectly provided the evaluation of the basicities of these enamines [Eq. (4)]. The pK values for 4-(2-methyl-propenyl)morpholinc, l-(2-methylpropenyl)piperidine, and l-(2-methyl-propenyl)pyrrolidine are 5.47, 8.35, and 8.84, respectively (27). Since the protonation of the j8-carbon atom does not possess the character of a real equilibrium at pH 7 and up [for compound 1 even at pH 1 and up] the basicity must be fully ascribed to the equilibrium between enamine and the corresponding nitrogen-protonated conjugate acid. [Pg.106]

The differenee in reaction rates of the amino alcohols to isobutyraldehyde and the secondary amine in strong acidic solutions is determined by the reactivity as well as the concentration of the intermediate zwitterions [Fig. 2, Eq. (10)]. Since several of the equilibrium constants of the foregoing reactions are unknown, an estimate of the relative concentrations of these dipolar species is difficult. As far as the reactivity is concerned, the rate of decomposition is expected to be higher, according as the basicity of the secondary amines is lower, since the necessary driving force to expel the amine will increase with increasing basicity of the secondary amine. The kinetics and mechanism of the hydrolysis of enamines demonstrate that not only resonance in the starting material is an important factor [e.g., if... [Pg.112]

It might also be expected that enamines would be less basic than the corresponding saturated tertiary amines as a consequence of the delocalization of the nonbonded electron pair of the nitrogen. The older literature (/—/), which involved measurements in aqueous or partly aqueous solution, led to the opposite conclusion. This unexpected increase in basicity was rationalized in terms of an equilibrium between the enamine and the quaternary iminium hydroxide ... [Pg.116]

Recent work (5) using kinetic methods has shown that the enamines derived from isobutyraldehyde are indeed less basic than the corresponding saturated tertiary amines. [Pg.116]

Alkylation of enamines can take place on carbon or on nitrogen (see Section I). The theoretical considerations and reaction conditions which determine whether C or N alkylation takes place have already been studied extensively 26-32). These studies have shown that the facility with which alkylation takes place depends on the basicity of theenamine, on the ease of formation of a trigonal atom in the transition state, and on the nature of the enamine, the alkylating agent, and the solvent. [Pg.119]

Enamines prepared from the more basic amines are alkylated more easily and in higher yield, but yields are also affected by the ease of formation of an exocyclic double bond in the transition state (32). Thus the enamines derived... [Pg.121]

The basicity of the enamine has an overriding influence on the yield of product. Good yields are obtained from the pyrrolidine enamines, poor yields from the piperidine enamines, and the morpholine enamines fail to... [Pg.133]

The rate of addition of isocyanates to enamines increases with decreasing basicity of the isocyanate nitrogen and with increasing basicity of the enamine nitrogen 112). [Pg.151]

At higher temperatures the mixture of 10 and methyl vinyl ketone yields the 1,4-carbocyclic compound as described previously. Methyl isopropenyl ketone (5), ethyl acetylacrylate (d), 2-cyclohexenone (21), and 1-acetyl-1-cyclohexene (22) also undergo this type of cyclization reaction with enamines at higher temperatures. This cycloalkylation reaction occurs with enamines made of strongly basic amines such as pyrrolidine, but the less reactive morpholine enamine combines with methyl vinyl ketone to give only a simple alkylated product (7). Chlorovinyl ketones yield pyrans when allowed to react with the enamines of either alicyclic ketones or aldehydes (23). [Pg.216]

In a similar manner diethyl maleate (actually diethyl fumarate since the basic enamine catalyzes the maleate s isomerization upon contact) forms unstable 1,2 cycloadducts with enamines with hydrogens at temperatures below 30°C (37). At higher temperatures simple alkylated products are formed (41). Enamines with no )3 hydrogens form very stable 1,2 cycloadducts with diethyl maleate (36,37,41). The two adjacent carboethoxy groups of the cyclobutane adduct have been shown to be Irons to one another (36,37). [Pg.219]

Similar behavior can be observed even in the case of substituted quinuclideines 170). Neostrychnine (68) serves as an example of more complex compounds which show spectra differing from those of other enamines. The ultraviolet spectrum of this compound exhibits no batho-chromic shift and its basicity is considerably decreased 159,171,172) (pK in methylcellosolve at 20° is 3.8, whereas the analogous saturated compound has a pK under the same conditions of 7.45, and a compound with the double bond further removed, strychnine, has a pK of 7.37). As another example, the ultraviolet spectrum of trimethyl conkurchine (69) shows the same absorption maxima as a saturated tertiary amine (A in ether, about 213 m/i). [Pg.270]

It is noteworthy that only in the case of dehydroquinolizidine derivatives does monomethylation produce the N-alkylated product. The formation of dialkylated products can be explained by a disproportionation reaction of the monoalkylated immonium salt caused by either the basicity of the starting enamine or some base added to the reaction mixture (most often potassium carbonate) and subsequent alkylation of the monoalkylated enamine. Reinecke and Kray 113) try to explain the different behavior of zJ -dehydroquinolizidine and zJ -dehydroquinolizidine derivatives by the difference in energies of N- and C-alkylation transition states because of the presence of I strain. [Pg.279]

Dihydro-2/7- 74 and -4//-l,2-oxazines and thiazines 75 are interrelated by prototropy, being enamines and imines, respectively. In the case of oxazines, the imine form 75 is favored, and there are several well established examples of this system, including the parent heterocycle 75 (X = O) [84MI2]. No tautomeric equilibrium between the 2H and 4H forms has been observed under normal conditions in solution or in the solid state. However, the formation of intermediate 2H isomers 77 was proposed both for the conversion of 3-phenyl-5,6-dihydro-4//-l,2-oxazine 76 (R = Ph, r = R = H) into 2-phenylpyrrole(89TL3471) under strong basic conditions and for thermal decomposition of cyclopentene-fused 1,2-oxazine 76... [Pg.277]

In the acylation of enamines, the weakly basic acylated enamine does not absorb the acid formed. Consequently, one must employ 2 equivalents of the enamine or use a second tertiary amine to absorb the acid liberated. In the procedure, triethylamine is employed to absorb the hydrochloric acid. [Pg.81]

A mixture of 100 g (0.6 mole) of 1-morpholino-l-cyclohexene, 28.8 g (0,4 mole) of /3-propiolactone, and 100 ml of chlorobenzene is placed in a 500-ml round-bottom flask fitted with a condenser (drying tube). The mixture is refluxed for 4 hours. The solvent and excess enamine are removed by distillation at aspirator pressure. (The residue may be distilled to afford the pure morpholide, bp 187-18871 rnm, 1.5090.) Basic hydrolysis may be carried out on the undistilled morpholide. To the crude amide is added 400 ml of 10% sodium hydroxide solution. The mixture is cautiously brought to reflux, and refluxing is continued for 2 hours. The cooled reaction mixture is made acidic (pH 4) and is extracted three times with ether. The combined ether extracts are washed twice with 5 % hydrochloric acid solution and twice with water. The ethereal solution is dried (sodium sulfate), then filtered, and the solvent is removed (rotary evaporator). The residue may be recrystallized from petroleum ether-benzene, mp 64°. [Pg.84]

The reaction of enamines with iminium salts provides an alternative route to Mannich bases which are an attractive class of compounds, since they have found many applications (synthesis of drugs, pesticides, synthetic building blocks, etc.). This methodology has several basic advantages compared to the classic aminomethylation procedure15-18-24 ... [Pg.775]


See other pages where Enamines basicity is mentioned: [Pg.705]    [Pg.705]    [Pg.705]    [Pg.705]    [Pg.142]    [Pg.49]    [Pg.63]    [Pg.112]    [Pg.135]    [Pg.227]    [Pg.254]    [Pg.264]    [Pg.271]    [Pg.295]    [Pg.314]    [Pg.344]    [Pg.390]    [Pg.271]    [Pg.89]    [Pg.947]   
See also in sourсe #XX -- [ Pg.432 ]

See also in sourсe #XX -- [ Pg.165 ]




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Protonation Energies and Basicities of Enamines

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