Amination, hydroaminomethylation

This atom economic reaction, in which only water occurs as a by-product, is very attractive for forming various amines. Hydroaminomethylation includes three different mechanisms due to the three reactions involved. The mechanism of hydroaminomethylation is shown in Scheme 17. The first catalytic cycle is similar to hydroformylation, which is described above. 

Hydroaminomethylation is hydroformylation coupled to amine-aldehyde condensation followed by hydrogenation. The hydroformylation reaction establishes... 

The hydroformylation reaction strategy has recently been extended, in a novel way, to the manufacture of primary amines by hydroaminomethylation of olefins with ammonia in a two-phase system. Thus, 1-pentene was reacted with ammonia here hydroformylation to an aldehyde, with CO and H2, with subsequent reductive amination occurs in a domino reaction. The catalyst was Rh/Ir/TPPS (Zimmermann et al., 1999). 

Hydroaminomethylation of alkenes occurred to give both n- and /. so aliphatic amines catalyzed by [Rh(cod)Cl]2 and [Ir(cod)Cl]2 with TPPTS in aqueous NH3 with CO/H2 in an autoclave. The ratio of n-and /.soprimary amines ranged from 96 4 to 84 16.178 The catalytic hydroaminomethylation of long-chain alkenes with dimethylamine can be catalyzed by a water-soluble rhodium-phosphine complex, RhCl(CO) (Tppts)2 [TPPTS P(m-C6H4S03Na)3], in an aqueous-organic two-phase system in the presence of the cationic surfactant cetyltrimethy-lammonium bromide (CTAB) (Eq. 3.43). The addition of the cationic surfactant CTAB accelerated the reaction due to the micelle effect.179... 

Larock RC (1989) Comprehensive organic transformations. VCH, New York MobaUigh A, Seayad A, Jackstell R, Beller M (2003) Amines made easily a highly selective hydroaminomethylation of olefins. J Am Chem Soc 125 10311-10318... 

Given the previous discussion on reductive amination, it is surprising that the potentially more complicated domino hydroformylation-reductive amination reactions have been more thoroughly developed. The first example of hydroaminomethylation was reported as early as 1943 [83]. The most synthetically useful procedures utilize rhodium [84-87], ruthenium [88], or dual-metal (Rh/Ir) catalysts [87, 89, 90]. This area was reviewed extensively by one of the leading research groups in 1999 [91], and so is only briefly outlined here as the second step in the domino process is reductive amination of aldehydes. Eilbrachfs group have shown that linear selective hydroaminomethylation of 1,2-disubstituted alkenes... 

Scheme 15.13 Hydroaminomethylation of terminal alkenes to linear amines.

A more recent report thoroughly investigates hydroaminomethylation of terminal alkenes to give high yields of linear (linear branched=99 1) tertiary amines from secondary amines and terminal alkenes or linear secondary... 

The recent improvements described above suggest that hydroaminomethylation is approaching use as a practical process for preparing a range of amines with good linear selectivity, and good catalytic activity. 

The improvements made in hydroaminomethylation technology suggest that certain variants of this reaction are sufficiently developed for the potential production of amines. The synthesis of linear tertiary and secondary amines from terminal alkenes shows promise in this regard. Belief s recent contributions towards hydroaminomethylation using ammonia to produce linear primary amines, which are of industrial significance due to their abundance, suggest a bright future for this reaction. Branched selective hydroaminomethylation remains relatively underdeveloped and needs further study. 

Abstract Aldehydes obtained from olefins under hydroformylation conditions can be converted to more complex reaction products in one-pot reaction sequences. These involve heterofunctionalization of aldehydes to form acetals, aminals, imines and enamines, including reduction products of the latter in an overall hydroaminomethylation. Furthermore, numerous conversions of oxo aldehydes with additional C.C-bond formation are conceivable such as aldol reactions, allylations, carbonyl olefinations, ene reactions and electrophilic aromatic substitutions, including Fischer indole syntheses. 

Secondary and tertiary amines can be obtained if the hydroformylation of olefins is conducted in the presence of primary and secondary amines under elevated hydrogen partial pressures. Here the rhodium catalyst is involved in both steps, the hydroformylation of an olefin as well as the hydrogenation of the imine or enamine resulting from a condensation of the oxo-aldehyde with the amine (Scheme 14). This combination of hydroformylation and reductive amination is also known as hydroaminomethylation and has been applied to the synthesis of various substrates of pharmaceutical interest [55-57] as well as to the synthesis of macrocycles [60-63] and dendrimers [64,65]. 

General Procedure for the Stepwise Hydroformylation/Reductive Amination on Allylated Hyperbranched Polyglycerols (PG). Synthesis of Hydroaminomethylated Hyperbranched PG-dendrimers. PG-Allyl, Rh(acac)(CO)2 and XANTPHOS were dissolved in dry toluene and placed in an autoclave. The autoclave was pressurized with CO/H2 (1 1, 30 bar), heated at 70 °C for 5d. After cooling, the amine was added to the crude PG-aldehyde (1H NMR was used to confirm full conversion) and stirred for 1-2 h. After stirring, Rh(acac)(CO)2 was added and the autoclave was pressurized with CO/H2 (1 6, 70 bar) and heated at 85 °C for 2-5 days. After cooling, the solvent was removed in vacuo and the crude mixture was purified by dialysis (benzoylated cellulose tubing) to give the re-... 

In a similar manner, polymers with unsaturated chains or side chains can be converted to polyamines [66-69]. Conjugated diolefins usually undergo hydroformylation with low selectivities [70]. Mostly hydrogenation of at least one double bond occurs and mixtures of various saturated and unsaturated amines and diamines are obtained [71]. Similar to alkenes also alkynes may serve as unsaturated compounds in hydro aminomethylation reaction sequences. Although synthetically attractive, only a few investigations towards hydroformylation and hydroaminomethylation of alkynes in the presence of N-nuclcophilcs are known. Usually a preferred transformation to furanonic derivatives is observed under hydroformylation conditions [27]. 

Hydroaminomethylation is a simple, efficient and atom-economic method to synthesize various amines. This one-pot reaction consists of three consecutive steps in the first step a hydroformylation of an olefin is performed followed by the reaction of the resulting aldehyde with a primary or secondary amine to give the corresponding enamine or imine. Lastly, this intermediate is hydrogenated to the desired secondary or tertiary amine (Fig. 11) [33-39]. In most cases rhodium salts or complexes are used as the homogeneous catalyst in the hydroaminomethylation. 

However, morpholine-4-carboxylic acid 2-hydroxy-1-methyl-ethyl ester is formed by the reaction of PC and the substrate morpholine in an undesired side reaction. By use of 1.4-dioxane or the pyrrolidones as mediator s3 about 30 to 45% of the morphoUne is consumed by this side reaction. The by-product is contained in the PC phase and can not be extracted to the non-polar product phase. The selectivity to the desired amines is lowered, because of the consiunption of the morphoUne. Thus, PC has to be substituted by another polar solvent (e.g. water, methanol or ethylene glycol) in future experiments. The lactates react with the morphoUne, too resulting in the corresponding amide. Overall, the hydroaminomethylation in the TMS systems PC/dodecane/lactate results in a conversion of 1-octene of about 80%, but in selectivities to the amines of only 50 to 60%. 

Hydroaminomethylation is a promising reaction to functionalize unsaturated compounds with an amino group [13, 48, 49], The tandem reaction was discovered by Reppe in 1949 and has been further developed in recent years by Eilbracht and Beller. Hydroaminomethylation consists of three consecutive reactions which are carried out in the same reaction vessel [48], The first reaction is hydroformylation which is followed by the condensation with an amine. Hydrogenation of the generated enamine/imine to the amine is the last step. The conditions for hydroaminomethylation are related to the hydroformylation reaction but are not similar due to the two other reactions. The reaction is called an auto-tandem reaction because two of the three reactions need the same catalyst [9] (Scheme 16). 

A rhodium catalyst [Rh(cod)Cl]2 was applied at 140°C and 100 bar to achieve a yield of 99% in hydroaminomethylation of ethyl oleate and morpholine. Several amines were tested in the reaction with fatty compounds hexylamine, benzylamine, aspartic diethyl acid, valinol, and diisopropylamine are further amines which can be employed in hydroaminomethylation. The conversion with primary amines showed that hydroaminomethylation can proceed twice on the amine. The dimer fatty acid ester bridged with an amine is a highly functionalized molecule with various applications. An excess of the primary amine during the reaction prohibits the reaction of the hydroformylation product with a secondary amine which is the product of hydroaminomethylation with the primary amine (Scheme 19). 

Scheme 19 Hydroaminomethylation of ethyl oleate with a primary amine...

Crozet D, Urrutigoity M, Kalck P (2011) Recent advances in amine synthesis by catalytic hydroaminomethylation of alkenes. ChemCatChem 3(7) 1102-1118. doi 10.1002/ cctc.201000411... 

Behr A, Fiene M, Buss C, Eilbracht P (2000) Hydroaminomethylation of fatty acids with primary and secondary amines - a new route to interesting surfactant substrates. Eur J Lipid Sci Technol 102 467 -71... 

Hydroaminomethylation reactions can be accomplished by addition of nucleophilic a-amino alkyl radicals (generated from amines) onto electron-deficient alkenes [7, 21], Amines have a low oxidation potential, and are easily oxidized by excited aromatic ketones bearing electron-donating substituents (e.g., Michler s ketone) or... 

In rare instances, hydroaminomethylation can occur by using electron-rich alkenes such as styrene derivatives. Thus, 1-phenylpropene added Me3N regioselec-tively to form N,N-dimethyl-2-phenylbutan-l-amine upon excitation via a styrene-amine exciplex [24]. 

An interesting variation of hydroformylation with a great potential for the industrial preparation of primary amines is hydroaminomethylation. In this process two catalytic reactions are combined, a hydroformylation and a reductive amination of the resulting aldehyde. Although first described more than 60 years ago a really successful procedure was only published recently [78]. To ensure the success of this sequence a rhodium catalyst for the hydroformylation was combined with an iridium catalyst for the imine reduction in a two-phase system, similar to the Ruhrchemie/Rhone-Poulenc process for the hydroformylation. It was demonstrated that less polar solvents such as toluene in combina-... 

Another one-step route to amines is hydroaminomethylation, which is a sequence of hydroformylation and reductive amination of the intermediate aldehyde in a one-pot reaction (Scheme 1). 

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