Multicomponent Strecker Reaction under High Pressure

Abstract: For the first time, uncatalyzed, high‐pressure (0.6 GPa) reactions with ketones have proven to be a powerful way to perform the three‐component Strecker synthesis of α‐amino nitriles in high yields. Two types of double Strecker reactions were achieved, but attempts to perform triple Strecker reactions were unsuccessful.

“…It has been reported that the Strecker reaction of acetophenone even with the activated amine 3,4,5-trimethylaniline using metal triflates and acetonitrile as the solvent gave very poor yield of the product (47)(48)(49). We found that a similar reaction of acetophenone with aniline and TMSCN (cyanide source) in dichloromethane using Ga(OTf) 3 as a catalyst proceeds smoothly under mild conditions (room temperature, 5 h) giving the corresponding ␣-aminonitrile in excellent yield and high purity ( Table 2, entry 1), despite that the direct Strecker reaction using aromatic ketones and aromatic amines has been repeatedly cited in the literature as a challenge (6,7,(37)(38)(39)(40)(41)(42)(43)(44)(45)(46). We performed the reaction with a variety of ketones and anilines at room temperature in dichloromethane, and in all cases high yields of the nitrile products were obtained emphasizing the generality of our methodology.…”

“…Efficient, clean, and direct three-component Strecker reaction using ketones is difficult. Quite often, these reactions have to be carried out stepwise (preparation of imines first followed by cyanide addition) (2,3) or under high pressure conditions (6,7). Use of ammonia or ammonium salts in the presence of cyanides has been described (8)(9)(10)(11)(12)(13).…”

“…However, successful three component Strecker reactions using ketones and fluorinated ketones are rare (2)(3)(4)(5)(6)(7)(8)(9)(10)(11)(12)(13)(14). Fluorinated amino acids are becoming increasingly important in pharmaceuticals and other biological applications (15)(16)(17)(18)(19)(20)(21), such as the development of anticancer drugs for the control of tumor growth and drugs for the control of blood pressure and allergies (22).…”

Gallium (III) triflate catalyzed efficient Strecker reaction of ketones and their fluorinated analogs

“…It has been reported that the Strecker reaction of acetophenone even with the activated amine 3,4,5-trimethylaniline using metal triflates and acetonitrile as the solvent gave very poor yield of the product (47)(48)(49). We found that a similar reaction of acetophenone with aniline and TMSCN (cyanide source) in dichloromethane using Ga(OTf) 3 as a catalyst proceeds smoothly under mild conditions (room temperature, 5 h) giving the corresponding ␣-aminonitrile in excellent yield and high purity ( Table 2, entry 1), despite that the direct Strecker reaction using aromatic ketones and aromatic amines has been repeatedly cited in the literature as a challenge (6,7,(37)(38)(39)(40)(41)(42)(43)(44)(45)(46). We performed the reaction with a variety of ketones and anilines at room temperature in dichloromethane, and in all cases high yields of the nitrile products were obtained emphasizing the generality of our methodology.…”

“…Efficient, clean, and direct three-component Strecker reaction using ketones is difficult. Quite often, these reactions have to be carried out stepwise (preparation of imines first followed by cyanide addition) (2,3) or under high pressure conditions (6,7). Use of ammonia or ammonium salts in the presence of cyanides has been described (8)(9)(10)(11)(12)(13).…”

“…However, successful three component Strecker reactions using ketones and fluorinated ketones are rare (2)(3)(4)(5)(6)(7)(8)(9)(10)(11)(12)(13)(14). Fluorinated amino acids are becoming increasingly important in pharmaceuticals and other biological applications (15)(16)(17)(18)(19)(20)(21), such as the development of anticancer drugs for the control of tumor growth and drugs for the control of blood pressure and allergies (22).…”

Gallium (III) triflate catalyzed efficient Strecker reaction of ketones and their fluorinated analogs

“…The amines were selected to illustrate a range of reactivities i.e. from aromatic to aliphatic and cyclic derivatives and as Table 1 illustrates, in the case of aniline (12), benzylamine (13) and phenylpropylamine (14), excellent yields were again obtained using analogous conditions to those employed for 2-phenylethylamine (7). However, in the case of pyrrolidine (15), which upon reaction with 4-bromobenzaldehyde (6) affords an iminium ion as the reactive intermediate, quantitative conversion of the aldehyde 6 to (4-bromophenyl)pyrrolidin-2-ylacetonitrile (16) was obtained at the higher flow rate of 20 µL min -1 , affording an increase in the reaction throughput compared to the primary amines investigated.…”

“…These range from the use of organic solvents and alternative cyanide sources, [5] to the use of Lewis acid catalysts, [6][7][8][9] guanidine HCl, [10] ionic liquids, [11,12] catalyst-free [13] examples and even those conducted at elevated pressures (0.6 GPa). [14] Despite these advancements, the reaction still suffers from numerous drawbacks including the use of elevated reaction temperatures, extended reaction times, expensive homogeneous catalysts, an excess of the cyanide source and variable yields, which preclude the use of the Strecker reaction on a production scale.…”

Evaluation of the Heterogeneously Catalyzed Strecker Reaction Conducted Under Continuous Flow

Gallium(III) Trifluoromethanesulfonate (Gallium Triflate)