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Gabriel synthesis, amines from

Chapter IV. a-Chloromethylnaphthalene (IV,23) benzylamine (Gabriel synthesis) (IV,39) i r.N -dialkylanilines (from amines and trialkyl orthophosphates) (IV,42) a-naphthaldehyde (Sommelet reaction) (IV,120) a-phenyl-cinnamic acid (Perkin reaction using triethylamine) (IV,124) p-nitrostyrene (IV,129) p-bromonaphthalene and p naphthoic acid (from 2 naphthylamine-1 -sulphonic acid) (IV,62 and IV,164) diphenic acid (from phenanthrene) (IV,165). [Pg.1191]

GABRIEL Amine Synthesis Synthesis ol primary amines from alkyl halides... [Pg.139]

Another alternative for preparing a primary amine from an alkyl halide is the Gabriel amine synthesis, which uses a phthalimide alkylation. An imide (—CONHCO—) is similar to a /3-keto ester in that the acidic N-H hydrogen is flanked by two carbonyl groups. Thus, imides are deprotonated by such bases as KOH, and the resultant anions are readily alkylated in a reaction similar to the acetoacetic ester synthesis (Section 22.7). Basic hydrolysis of the N-alkylated imide then yields a primary amine product. The imide hydrolysis step is analogous to the hydrolysis of an amide (Section 21.7). [Pg.929]

Amides are weakly nucleophilic and react only slowly with alkyl halides. The anions of amides are substantially more reactive. The classical Gabriel procedure for synthesis of amines from phthalimide is illustrative.58... [Pg.229]

A variant of Gabriel amine synthesis where hydrazine is used to release the amine from the corresponding phthalimide ... [Pg.253]

The sulphonyl chloride 23 is proposed as a protecting group for the Gabriel synthesis of secondary amines from primary amines. At the deprotecting stage, carbon-sulphur bond cleavage is achieved using zinc and acid as the electron source [109]. [Pg.180]

The Gabriel synthesis of amines uses potassium phthalimide (prepared from the reaction of phthalimide with potassium hydroxide). The structure and preparation of potassium phthalimide is shown in Figure 13-13. The extensive conjugation (resonance) makes the ion very stable. An example of the Gabriel synthesis is in Figure 13-14. (The N2H4 reactant is hydrazine.) The Gabriel synthesis employs an 8, 2 mechanism, so it works best on primary alkyl halides and less well on secondary alkyl halides. It doesn t work on tertiary alkyl halides or aryl halides. [Pg.229]

Primary amines can be prepared from alkyl halides by 0-44, by 0-63, by 0-61 followed by reduction of the azide (9-53), or by the Gabriel synthesis (0-58). [Pg.412]

SAMPLE SOLUTION (a) The Gabriel synthesis is limited to preparation of amines of the type RCH2NH2, that is, primary alkylamines in which the amino group is bonded to a primary carbon. Butylamine may be prepared from butyl bromide by this method. [Pg.937]

The success of the Gabriel synthesis depends on N-alkylation being favored over O-alkylation and SN2 being favored over E2. Polar, aprotic solvents such as methylsulfinylmethane, (CH3)2SO, are useful for the Gabriel synthesis. Hydrolysis of the alkylation product often is difficult and amide interchange (analogous to ester interchange, Section 18-7A) with hydrazine can be an effective way to free the amine from the imide. [Pg.1127]

An alternative reagent equivalent for the amide anion synthon is the potassium salt of phthalimide which can only react with one molecular proportion of alkyl halide. The resulting JV-alkylphthalimide is then cleaved to the primary amine (the Gabriel synthesis). The preliminary preparation of potassium phthalimide (from a solution of phthalimide in absolute ethanol and potassium hydroxide in 75% ethanol) may be avoided in some cases by boiling phthalimide with the halide in the presence of anhydrous potassium carbonate. The cleavage of the JV-substituted phthalimide is best effected by reaction with hydrazine hydrate and then heating the reaction mixture with hydrochloric acid. The insoluble phthalylhydrazide is filtered off, leaving the amine hydrochloride in solution from which the amine may be liberated and isolated in the appropriate manner. [Pg.779]

You can best prepare a primary amine from its alkylazide by reduction or by the Gabriel synthesis. [Pg.175]

Gabriel synthesis, which is most often considered as a classical approach to primary amines, can be generalized as monoalkylation of a suitably protected ammonia derivative with subsequent removal of the phthaloyl group from nitrogen. Despite its wide applicability this procedure suffers, however, from several drawbacks ... [Pg.169]

Aminooxindols (11/153) are rearranged to 3-cinnolinols 11/154, if treated with equimolar amounts of /-butyl hypochlorite [106] [107] [108]. Compound 11/153 is known as Neber s lactam , and is formed from 11/154 with zinc and sulfuric acid. The mechanism preferred for the 11/153 —> 11/154 transformation involves nitrene formation [106]. - As already mentioned, the Gabriel synthesis (11/155 11/157) is a method for synthesis of primary amines. But the side product is the ring enlarged hydrazide, compare Chapter IV... [Pg.28]

Further transamidation reactions are depicted in Scheme VI/6. In some respects, even the Gabriel synthesis, [15] [16] [17]3), a method for preparation of primary amines from N-substituted phthalimides by treatment with hydrazine,... [Pg.101]

Heterocyclic-2-propyne-l-amine derivatives have been prepared from propargylamine using the Gabriel synthesis (2,3) as illustrated in Eq. 2 ... [Pg.102]

The Gabriel synthesis consists of two steps and uses a nucleophile derived from phthalimide to synthesize 1° amines via nucleophilic substitution. The Gabriel synthesis begins with... [Pg.960]

Gabriel synthesis (Section 25.7A) A two-step method that converts an alkyl halide into a primary amine using a nucleophile derived from phthalimide. [Pg.1202]

The limitations of this approach can be seen in the reaction of a saturated solution of ammonia in 90% ethanol with ethyl bromide in a 16 1 molar ratio, under which conditions the yield of primary amine was 34.2% (at a 1 1 ratio the yield was 11.3%). Alkyl amines can be one type of substrate that does give reasonable yields of primary amine (provided a large excess of NH3 is used) are a-halo acids, which are converted to amino acids. A-Chloromethyl lactams also react with amines to give good yields to the A-aminomethyl lactam. Primary amines can be prepared from alkyl halides by 10-43, followed by reduction of the azide (19-32), or by the Gabriel synthesis (10-41). [Pg.556]

An alternative to the azide synthesis is the Gabriel amine synthesis, which uses a phthalimide alkylation for preparing a primary amine from an alkyl halide. Imides (-CONHCO-) are similar to ethyl acetoacetate in that... [Pg.1357]

Gabriel synthesis Two-step preparation of primary amines from the corresponding alkyl halides using phthalimide as the nitrogen source. 182... [Pg.510]


See other pages where Gabriel synthesis, amines from is mentioned: [Pg.81]    [Pg.81]    [Pg.81]    [Pg.81]    [Pg.930]    [Pg.930]    [Pg.500]    [Pg.191]    [Pg.606]    [Pg.717]    [Pg.473]    [Pg.1200]    [Pg.182]    [Pg.49]    [Pg.45]   
See also in sourсe #XX -- [ Pg.1127 , Pg.1148 ]




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