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Ammonia substitution reaction

The formation of the above anions ("enolate type) depend on equilibria between the carbon compounds, the base, and the solvent. To ensure a substantial concentration of the anionic synthons in solution the pA" of both the conjugated acid of the base and of the solvent must be higher than the pAT -value of the carbon compound. Alkali hydroxides in water (p/T, 16), alkoxides in the corresponding alcohols (pAT, 20), sodium amide in liquid ammonia (pATj 35), dimsyl sodium in dimethyl sulfoxide (pAT, = 35), sodium hydride, lithium amides, or lithium alkyls in ether or hydrocarbon solvents (pAT, > 40) are common combinations used in synthesis. Sometimes the bases (e.g. methoxides, amides, lithium alkyls) react as nucleophiles, in other words they do not abstract a proton, but their anion undergoes addition and substitution reactions with the carbon compound. If such is the case, sterically hindered bases are employed. A few examples are given below (H.O. House, 1972 I. Kuwajima, 1976). [Pg.10]

The reaction of ammonia and amines with esters follows the same general mech anistic course as other nucleophilic acyl substitution reactions (Figure 20 6) A tetrahe dral intermediate is formed m the first stage of the process and dissociates m the second stage... [Pg.857]

Alkylamines are in principle capable of being prepared by nucleophilic substitution reactions of aUtyl halides with ammonia... [Pg.928]

These effects can be attributed mainly to the inductive nature of the chlorine atoms, which reduces the electron density at position 4 and increases polarization of the 3,4-double bond. The dual reactivity of the chloropteridines has been further confirmed by the preparation of new adducts and substitution products. The addition reaction competes successfully, in a preparative sense, with the substitution reaction, if the latter is slowed down by a low temperature and a non-polar solvent. Compounds (12) and (13) react with dry ammonia in benzene at 5 °C to yield the 3,4-adducts (IS), which were shown by IR spectroscopy to contain little or none of the corresponding substitution product. The adducts decompose slowly in air and almost instantaneously in water or ethanol to give the original chloropteridine and ammonia. Certain other amines behave similarly, forming adducts which can be stored for a few days at -20 °C. Treatment of (12) and (13) in acetone with hydrogen sulfide or toluene-a-thiol gives adducts of the same type. [Pg.267]

Arynes are intermediates in certain reactions of aromatic compounds, especially in some nucleophilic substitution reactions. They are generated by abstraction of atoms or atomic groups from adjacent positions in the nucleus and react as strong electrophiles and as dienophiles in fast addition reactions. An example of a reaction occurring via an aryne is the amination of o-chlorotoluene (1) with potassium amide in liquid ammonia. According to the mechanism given, the intermediate 3-methylbenzyne (2) is first formed and subsequent addition of ammonia to the triple bond yields o-amino-toluene (3) and m-aminotoluene (4). It was found that partial rearrangement of the ortho to the meta isomer actually occurs. [Pg.121]

A further factor which must also be taken into consideration from the point of view of the analytical applications of complexes and of complex-formation reactions is the rate of reaction to be analytically useful it is usually required that the reaction be rapid. An important classification of complexes is based upon the rate at which they undergo substitution reactions, and leads to the two groups of labile and inert complexes. The term labile complex is applied to those cases where nucleophilic substitution is complete within the time required for mixing the reagents. Thus, for example, when excess of aqueous ammonia is added to an aqueous solution of copper(II) sulphate, the change in colour from pale to deep blue is instantaneous the rapid replacement of water molecules by ammonia indicates that the Cu(II) ion forms kinetically labile complexes. The term inert is applied to those complexes which undergo slow substitution reactions, i.e. reactions with half-times of the order of hours or even days at room temperature. Thus the Cr(III) ion forms kinetically inert complexes, so that the replacement of water molecules coordinated to Cr(III) by other ligands is a very slow process at room temperature. [Pg.55]

Azide is widely useful as a surrogate for ammonia in nucleophilic substitution reactions, due to its high nucleophilicity, low basicity, and stability towards a variety of conditions for subsequent transformations. In particular, the azidolysis of... [Pg.229]

The enormous number of coordination compounds undergo many reactions, but a large number of reactions can be classified into a small number of reaction types. When one ligand replaces another, the reaction is called a substitution reaction. For example, when ammonia is added to an aqueous solution containing Cu2+, water molecules in the coordination sphere of the Cu2+ are replaced by molecules of NH3. Ligands are held to metal ions because they are electron pair donors (Lewis bases). Lewis bases are nucleophiles (see Chapter 9), so the substitution of one nucleophile for another is a nucleophilic substitution reaction. Such a reaction can be illustrated as... [Pg.701]

Since the early work dealing with Zeise s salt, many complexes have been prepared with the formula [PtL(C2H4)X2], where L = quinoline, pyridine, or ammonia and X=C1 , Br , I, or N()2. Similar compounds have been prepared that contain other alkenes than C2H4. Many of the complexes containing dienes, trienes, and tetraenes as ligands also contain carbonyl ligands. In fact, metal carbonyls are frequently starting complexes from which alkene complexes are obtained by substitution reactions. [Pg.759]

With ammonia, a nucleophilic substitution reaction occurs. [Pg.93]

Nucleophilic substitution reaction of alcohol with ammonia MOR, RHO, CHA, FAU... [Pg.109]

By heating an alkyl halide with an alcoholic solution of ammonia in a sealed tube, a mixture of amines is formed by nucleophilic substitution reaction. [Pg.303]

Ten years ago Rorabacher (13) observed the substitution rate constants for aquonickel(II) ion with different amines (Table II). There is a decrease in the rate constants by a factor of 14 in going from ammonia to dimethylamine. If nickel-(II) substitution reactions are dissociative, then why is the effect this large Is this a steric effect with some associative contribution or is it an outer-sphere effect There has been surprisingly little investigation of the nature of the entering ligand so far as its bulk or its nucleophilicity is concerned even for what have been generally considered as simple substitution reactions. [Pg.11]

Ammonolysis. Reactions involving ammonia. Ammonolysis of esters, acyl chlorides, and anhydrides give amides aniline is produced by ammonolysis of chlorobenzene. The reaction is analogous to hydrolysis, with ammonia substituted for water. [Pg.390]

In contrast, reactions catalyzed by la were typically conducted with added [Ir (C0D)C1]2 to trap the K -phosphoramidite ligand after dissociation, and thereby, to leave the unsaturated active catalyst. Under these conductions, as much as half of the iridium in the system is present in an inactive acyclic species. In contrast, when ethylene adduct lb is used as the catalyst, all of the iridium belongs to the active metalacyclic species. Hartwig and coworkers have recently taken advantage of the increased availability of the active catalyst generated from lb to develop new allylic substitution reactions. These new processes include the reactions of carbamates, nitrogen heterocycles, and ammonia. [Pg.199]

Theoretical studies on N-methylborazine and N-dimethylborazine predict an electron-density on the boron atoms adjacent to the N-methyl group which is greater than that for the parent borazine molecule. This fact would lead to the expectation that para substitution is favored in the reaction of photoexcited N-methylborazine with ammonia, due to the lower electron density at the para site. However, B NMR data and H- N coupling constant results predict a lower electron density at the ortho site. The photochemical results are in accord with this latter prediction. Beachley produced 70% para B-chloro-N-methylborazine in the substitution reaction of HgCl2 with N-methylborazine in isopentane solution. Because this reaction has been shown to occur by a bimolecular exchange mechanism, these results can be explained by steric factors in the same manner as the HN(CH3)2 and CH3OH photochemical results. [Pg.22]

In a similar way, Kim and Bunnett (1970) demonstrated that the substitution of amino group for iodine in iodotrimethylbenzene proceeds via the ion-radical mechanism, in contrast to the bromo and chloro analogs. The reaction of 5- and 6-halo-l,2,4-trimethylbenzenes with potassium amide in liquid ammonia gives rise to 5- and 6-aminoderivatives. This is the cine-substitution reaction (see Scheme 4.12). [Pg.214]

Stilbene derivatives can be reduced with alkali metals in liquid ammonia. The reaction is usually performed in a homogeneous medium to give substituted diphenylethane compounds as a mixture of enantiomeric forms. However, there are compounds (particularly, biologically active ones) for which the stereospecificity of synthesis has decisive importance. A simple modification of the reduction method with an alkali metal in liquid ammonia was found (Collins and Hobbs 1983), which makes it possible to perform the process stereoselectively. The metal is not predissolved, as is usual, but is added in small portions without trying to make the reaction medium homogeneous. Stereoselectivity is ensured by carrying out the reduction on the surface of the metal and not in the solution bulk. [Pg.349]

You have read (Unit 10, Class Xll) that the carbon - halogen bond In alkyl or benzyl haUdes can be easily cleaved by a nucleophile. Hence, an allqrl or ben l haUde on reaction with an ethanollc solution of ammonia undergoes nucleophilic substitution reaction m which the halogen atom Is replaced by an amino (-NHJ group. This process of cleavage of the C-X bond by ammonia molecule Is known as ammonolysis. The reaction Is carried out In a sealed tube at 373 K. The primary amine thus obtained behaves as a nucleophile and can further react with allqrl halide to form secondary and tertiary amines, and finally quaternary ammonium salt. [Pg.115]

This enzyme [EC 4.1.99.1], also known as L-tryptophan indole-lyase, catalyzes the hydrolysis of L-tryptophan to generate indole, pyruvate, and ammonia. The reaction requires pyridoxal phosphate and potassium ions. The enzyme can also catalyze the synthesis of tryptophan from indole and serine as well as catalyze 2,3-elimination and j8-replacement reactions of some indole-substituted tryptophan analogs of L-cysteine, L-serine, and other 3-substituted amino acids. [Pg.688]

Bis(organosilyl) peroxides are prepared by nucleophilic substitution reactions of hydrogen peroxide with chlorosilanes in the presence of base . Thus, bis(triorganosilyl) peroxide has been prepared from the reaction of 98% hydrogen peroxide and chlorosilane with ammonia as an HCl acceptor (equation 3). Bis(triphenylsilyl) peroxide 2 can also be prepared by the reaction of hydrogen peroxide and triphenyl silylamine (equation 4). [Pg.777]

See other pages where Ammonia substitution reaction is mentioned: [Pg.73]    [Pg.164]    [Pg.165]    [Pg.165]    [Pg.392]    [Pg.156]    [Pg.1028]    [Pg.194]    [Pg.1189]    [Pg.998]    [Pg.223]    [Pg.350]    [Pg.170]    [Pg.676]    [Pg.222]    [Pg.14]    [Pg.34]    [Pg.47]    [Pg.565]    [Pg.23]    [Pg.195]    [Pg.440]    [Pg.152]    [Pg.233]    [Pg.527]   
See also in sourсe #XX -- [ Pg.58 ]



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