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Urea substituted synthesis

The synthesis of fourfold [2]rotaxanes by clipping requires the efficient formation of heterodimers between a tetra-urea substituted by bulky stopper groups and an octaalk-enyl urea 6. We initially hoped that the steric crowding in homodimers of a tetra-tritylphenylurea calix[4]arene would be sufficient to shift the equilibrium toward the heterodimers in a mixture with 6. However, the distribution of the dimers was close to the statistical ratio and the desired rotaxane could be obtained in only 5% yield [59]. [Pg.171]

Mono-substituted and unsymmetrical di-substituted ureas may be prepared by a modification of Wohler s urea synthesis, salts of primary or secondary amines being used instead of the ammonium salt for interaction with potassium cyanate. Thus when an aqueous solution containing both aniline hydrochloride and potassium cyanate is heated, aniline cyanate is first formed, and then C,HjNH,HCl -h KCNO = C,H6NHj,HCNO -h KCl C,HsNH HCNO = C.H NHCONH, by the usual molecular rearrangement is converted into monophenyburea. [Pg.124]

Diethyl malonate has uses other than m the synthesis of carboxylic acids One particu larly valuable application lies m the preparation of barbituric acid by nucleophilic acyl substitution with urea... [Pg.900]

The final step in the synthesis of all barbiturates consists in either condensation of a suitably substituted malonic or cyano-acetic ester with urea by means of sodium ethoxide (scheme a) or... [Pg.267]

Recently, a direct synthesis of substituted isoindolinediimines starting from substituted derivatives of phthalic anhydride was reported. The respective derivative of phthalic anhydride was treated with urea and ammonium nitrate in the presence of molybdic acid to give the respective isoindolinediimine.123... [Pg.726]

Due to its commercial importance, the synthesis of copper phthalocyanine (PcCu) is the best investigated of all the phthalocyanines. Copper phthalocyanine is prepared from phthalonitrile and copper(I) chloride without solvent137 and also in a melt of urea.229,277 Additionally, the insertion of copper into metal-free phthalocyanine in butan-l-ol and pentan-l-ol is possible. The copper salts used in this case are copper(I) chloride112 and copper(II) acetate.290 Starting from copper(II) acetate, copper phthalocyanine can also be prepared in ethylene glycol.127 As mentioned above, copper phthalocyanine often occurs as a byproduct of the Rosenmund-von Braun reaction. To increase the yield of the phthalocyanine the solvent dimethylformamide can be substituted by quinoline. Due to the higher boiling point of quinoline, the copper phthalocyanine is the main product of the reaction of copper(I) cyanide and 1,2-dibromoben-zene.130... [Pg.735]

The synthesis of 2-substituted pyrimidines from 1,3-dicarbonyl compounds and urea derivatives was first described by Evans2 and was later improved by Hunt, McOmie, and Sayer3 for the preparation of 2-mercapto-4,6-dimethylpyrimidine. Burness4 employed 3-ketobutyraldehyde acetal in this procedure to give 2-mercapto-4-methylpyrimidine. 2-Mercaptopyrimidine has been prepared from 1,1,3,3-tetraethoxypropane and thiourea by variations of this basic method 3 6 6 as well as by the reaction of 2-chloropyrimidine with thiourea 1 or sodium hydrosulfide.8... [Pg.70]

Ammonia and primary and secondary amines can be added to isocyanates to give substituted ureas. Isothiocyanates give thioureas. This is an excellent method for the preparation of ureas and thioureas, and these compounds are often used as derivatives for primary and secondary amines. Isocyanic acid (HNCO) also gives the reaction usually its salts (e.g., NaNCO) are used. Wohler s famous synthesis of urea involved the addition of ammonia to a salt of this acid. "... [Pg.1191]

Substituted thioureas have been used as ligands for transition-metal catalysed reactions and as organocatalysts for organic synthesis. These points will be discussed in Sects. 4 and 5. We first present some aspects of the coordination modes of ureas and thioureas. [Pg.238]

A fused heterocyclic compound (146) distantly related to the antiinflammatory agent cintazone (Chapter 12), which itself can be viewed as a cyclized derivative of phenylbutazone, retains the activity of the prototype, in the synthesis of 146, reaction of the nitroaniline 139 with phosgene gives intermediate 140, which is then reacted with ammonia to afford the substituted urea (141). Cyclization of the ortho nitrourea function by means of sodium hydroxide leads to the N-oxide (142) this last reaction represents... [Pg.474]

A recent study concerned the microwave-assisted parallel synthesis of di- and tri-substituted ureas utilizing dedicated 96-well plates in the CombiCHEM system [60], In a typical procedure, modification of the Marshall resin utilized was achieved by treatment with p-nitrophenyl chloroformate and N-methylmorpholine (NMM) in dichloromethane at low temperatures. The resulting resin was further modified by attaching various amines to obtain a set of polymer-bound carbamates (Scheme 7.48). [Pg.329]

Scheme 7.48 Parallel synthesis of substituted ureas from thiophenoxy carbamate resins. Scheme 7.48 Parallel synthesis of substituted ureas from thiophenoxy carbamate resins.
The described fluorous-tag strategy has also been applied to the synthesis of biaryl-substituted hydantoins (Scheme 7.81) [94]. 4-Hydroxybenzaldehyde was converted into the corresponding perfluorinated species, which was then subjected to a reductive amination. The resulting amine was treated with an isocyanate to produce the fluorous-tagged urea, which spontaneously cyclized to form the corresponding hydantoin. Finally, the fluorous tag was detached by a Suzuki-type carbon-carbon bond formation to furnish the desired target structure in good yield. [Pg.352]

Trying to prepare precursors for the synthesis of 3-substituted [l,2,4]triazolo[5,l- ]benzothiazoles, 2-hydrazino-4-methylbenzothiazole 393 was submitted to reaction with formic acid, urea, carbon disulfide, and acetic anhydride to give compounds 230, 238, 89, and 394 (Scheme 45) <1998IJC(B)921>. [Pg.270]

In summary, we have described an efficient and facile solid-phase synthesis of substituted ureas starting from aminomethyl MicroTubes. The synthesis takes place under mild conditions. Taking into account the commercial availability of primary amines, this strategy can be ideally used for the synthesis of large combinatorial libraries. [Pg.26]

Optimal conditions for the synthesis of symmetrically disubstituted or tetra-substituted ureas as well as of unsymmetrically disubstituted or trisubstituted ureas have, however, been developed (see also next Section). [Pg.260]

T2 resin synthesis of substituted amines [142], amides (peptides) [143], (thio)ureas [143,... [Pg.150]

A facile method for the synthesis of N-substituted 2-benzimidazolinones 142 has been developed by Romero et al. (96TL2361) using A-substituted ureas 139, which are cyclized to 142 with IBTA as an oxidant. The reaction probably proceeds via intermediates 140 and 141. Besides the iV-alkyl or aryl substituent, presence of the 1-methoxy group is necessary for the success of this cyclization. Another benzimidazoles synthesis involves cycli-zation of N-phenyl-C-alkyl formimidamides with IBD [95JCS(P1)615]... [Pg.36]

See other pages where Urea substituted synthesis is mentioned: [Pg.587]    [Pg.117]    [Pg.587]    [Pg.587]    [Pg.39]    [Pg.111]    [Pg.113]    [Pg.130]    [Pg.197]    [Pg.78]    [Pg.827]    [Pg.156]    [Pg.102]    [Pg.153]    [Pg.265]    [Pg.4]    [Pg.96]    [Pg.195]    [Pg.92]    [Pg.316]    [Pg.261]    [Pg.319]    [Pg.428]    [Pg.72]    [Pg.903]    [Pg.45]    [Pg.173]    [Pg.151]    [Pg.12]    [Pg.15]   
See also in sourсe #XX -- [ Pg.153 ]



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