Formic acid reductive amination

The desired pyridylamine was obtained in 69 % overall yield by monomethylation of 2-(aminomethyl)pyridine following a literature procedure (Scheme 4.14). First amine 4.48 was converted into formamide 4.49, through reaction with the in situ prepared mixed anhydride of acetic acid and formic acid. Reduction of 4.49 with borane dimethyl sulfide complex produced diamine 4.50. This compound could be used successfully in the Mannich reaction with 4.39, affording crude 4.51 in 92 % yield (Scheme 4.15). Analogous to 4.44, 4.51 also coordinates to copper(II) in water, as indicated by a shift of the UV-absorption maximum from 296 nm to 308 nm. 

The electrophilic character of sulfur dioxide does not only enable addition to reactive nucleophiles, but also to electrons forming sulfur dioxide radical anions which possess the requirements of a captodative" stabilization (equation 83). This electron transfer occurs electrochemically or chemically under Leuckart-Wallach conditions (formic acid/tertiary amine - , by reduction of sulfur dioxide with l-benzyl-1,4-dihydronicotinamide or with Rongalite The radical anion behaves as an efficient nucleophile and affords the generation of sulfones with alkyl halides " and Michael-acceptor olefins (equations 84 and 85). 

Improved catalyst recycling was also achieved in the reduction of acetophenone with formic acid/triethyl amine azeotrope with the r 6-benzene analogue of 14 bearing an imidazolium moiety on the diamine ligand instead of on the coordinated arene (see Figure 3.4).[51l In C4C im [PF6] the stability of the catalyst was superior in repeated runs when a mixture of [RuCl2(n6-benzene)]2 and 15 was employed rather than the neutral complex RuCl(r 6-benzene)(T sDPEN). 

The Leuckart reaction uses formic acid as reducing agent. Reductive alkylation using formaldehyde, hydrogen, and catalyst, usually nickel, is used commercially to prepare methylated amines. These tertiary amines are used to prepare quaternary ammonium salts. 

ESCHWEILER CLARKE Amine methylation Reductive methylation of amines by a mixture of formaldehyde and formic acid... 

Another interesting fact to be noted is that the bicyclic enamine (87) and its pyrrolidine analogue failed to undergo reduction with 98% formic acid, whereas the pyrrolidine enamine of 2-bicyclo[2.2.1]hepten-5-carboxalde-hyde (94), which exists largely in the transoid form (49), was readily reduced to (95). However, the saturated amine-substituted norbornane can be obtained directly from norbornanone under the more vigorous conditions of the Leuckart reaction (49a). 

The reaction has been applied to more complex enamines 13) and to dienamines 19). The reduction may be rationalized by initial protonation at the enamine carbon and subsequent decarboxylation of formate ion and addition of the hydride ion to the iminium cation. This mechanism has been given support by the reaction of the enamine (205) with deuterated formic acid 143) to give the corresponding amines. The formation of 206 on reaction with DCOOH clearly indicates that protonation at the enamine carbon is the initial step. 

In both cases, the hydride ion approaches the double bond from the sterically more accessible side of the molecule. Reduction of imines by metals and acids, electrolytically or by formic acid gives saturated secondary amines (38,255). 

Greater stereoselectivity for the formation of equatorial amines has been found in the reduction of enamines with formic acid or formamides (553-559). The selective formation of 3-a-amino-5- -steroids by this method and of 3- 3-amino-5- 3-steroids by catalytic reduction (5<50) of the corresponding enamines is of interest. 

By application of the Leuckart-Wallach reaction,amines 2 can be alkylated with a carbonyl compound 1 formic acid is used as reductive agent, and is in turn oxidized to give carbon dioxide. 

Extension of the alkyl group on the carbon bearing the amine changes the pharmacologic profile. Reductive amination of 1-phenylbutanone-2 (60) with pyrrolidine in formic acid gives pro-litane (61), a central nervous system stimulant agent with antidepressant properties. 

Pr)4, " borohydride-exchange resin,and formic acid. When the last is used, the process is called the Wallach reaction. Conjugated aldehydes are converted to alkenyl-amines with the amine/silica gel followed by reduction with zinc borohydride.In the particular case where primary or secondary amines are reductively methylated with formaldehyde and formic acid, the method is called the Esch-weiler-Clarke procedure. It is possible to use ammonium (or amine) salts of formic acid, " or formamides, as a substitute for the Wallach conditions. This method is called the Leuckart reaction,and in this case the products obtained are often the N-formyl derivatives of the amines instead of the free amines. Primary and secondary amines can be iV-ethylated (e.g., ArNHR ArNREt) by treatment with NaBH4 in acetic acid. Aldehydes react with aniline in the presence of Mont-morillonite KIO clay and microwaves to give the amine. Formaldehyde with formic acid converts secondary amines to the N-methyl derivative with microwave irradiation. 

The Leuckart-Wallach reaction is the oldest method of reductive amination of carbonyl compounds. It makes use of formamide, formic acid or ammonium formate at high temperature. The final product is a formamide derivative, which can be converted to an amine by reduction or hydrolysis. The method has been applied to the preparation of 1,2-diamines with a norbornane framework, which are interesting rigid analogues of 1,2-diaminocyclohexanes. As a matter of fact, starting from N-acetyl-2-oxo-l-norbornylamine 222, the diamide 223 was obtained with excellent diastereoselectivity and then converted to the M-methyl-N -ethyl derivative 224 by reduction with borane [ 104] (Scheme 34). On the other hand, when the reac-... 

The reductive alkylation of amines is called the Leuckart-Wallach reaction [112-115]. The primary or secondary amine reacts with the ketone or aldehyde. The formed imine is then reduced with formic acid as hydrogen donor (Scheme 20.27). When amines are reductively methylated with formaldehyde and formic acid, the process is termed the Eschweiler-Clarke procedure [116, 117]. 

Eschweiler-Clarke modification org chem A modification of the Leuckart reaction, involving reductive alkylation of ammonia or amines (except tertiary amines) by formaldehyde and formic acid. esh,vTl-3r klark. mad-o-fo ka-shon ... 

Reductive methylation of primary or secondary amines using formaldehyde and formic acid. Cf. Leuckart-Wallach reaction. 

Amine synthesis from reductive amination of a ketone and an amine in the presence of excess formic acid, which serves as the reducing reagent by delivering a hydride. When the ketone is replaced by formaldehyde, it becomes Eschweiler-Clarke reductive alkylation of amines. 

Vinylamines (enamines) are reduced by alane, mono- and dichloroalane to saturated amines, and hydrogenolyzed to amines and alkenes [710]. Reduction is favored by dichloroalane while hydrogenolysis is favored by alane. Alane, chloroalane and dichloroalane gave the following results with -N-pyrrolidinylcyclohexene V-pyrrolidinylcyclohexane in 13, 15 and 22% yield, and pyrrolidine and cyclohexene in 80, 75 and 75% yields, respectively [710]. Saturated amines were also obtained by treatment of enamines with sodium borohydride [711], with sodium cyanoborohydride [103, 712] (Procedure 22, p. 210) and by heating for 1-2 hours at 50-70° with 87% or 9S% formic acid (yields 37-89%) [320]. 

Ketimines are reduced to amines very easily by catalytic hydrogenation, by complex hydrides and by formic acid. They are intermediates in reductive amination of ketones (p. 134). An example of the reduction of a ketimine is conversion of 3-aminocarbonyl-2,3-diphenylazirine to the corresponding aziridine by sodium borohydride (yield 73%), by potassium borohydride (yield 71%) and by sodium bis (2-methoxyethoxy) aluminum hydride (yield 71%) [939]. 

Treatment of aldehydes or ketones with ammonia, primary or secondary amines in reducing media is called reductive alkylation (of ammonia or amines) or reductive amination (of aldehydes or ketones). Reducing agents are most frequently hydrogen in the presence of catalysts such as platinum, nickel or Raney nickel [955], complex borohydrides [705, 954, 955], formaldehyde or formic acid [522]. 

Reductive alkylation can also be accomplished by heating carbonyl compounds at 150-250° with 4-5 mol of ammonium formate, formamide, or formates or formamides prepared by heating primary on secondary amines with formic acid at 180-190° (Leuckart reaction) [322]. An excess of85-90% formic acid is frequently used. Formyl derivatives of primary or secondary amines are sometimes obtained as products and have to be hydrolyzed to the corres-... 

Reductive methylation is achieved by the reaction of formaldehyde with ammonium chloride. It is carried out by heating the components at 100-120° and gives mono-, di- and trimethylamine in high yields (Eschweiler reaction) [312, 962]. No catalyst is needed part of the formaldehyde provides the necessary hydrogen while the other part is oxidized to formic acid. The same reaction can be applied to methylation of primary and secondary amines [962]. Reductive alkylation can also be accomplished by reducing mixtures of amines with acids which are first reduced to aldehydes (p. 171). 

---